Cofem LYON User manual
MANUAL
Digital fire detection control panel
Lyon
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
2 Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofem@cofem.com - www.cofem.com
1.- System description ..................................................................................................................................................7
1.1.- Introduction ......................................................................................................................................................7
1.2.- Principle of operation .......................................................................................................................................7
1.3.- Characteristics ..................................................................................................................................................8
1.4.- Composition of the control panel .....................................................................................................................8
1.5. - Loop Elements Capacity..................................................................................................................................9
1.5.1.- Analogue sensors .....................................................................................................................................13
1.5.1.1.‐Analoguesmokesensors(A30XHA&A30XHA‐S).............................................................................13
1.5.1.2.‐Analoguetemperaturesensor(A30XTA).........................................................................................14
1.5.1.3.‐Analoguemulti‐sensor(A30XHTCO)................................................................................................15
1.5.2.- Analogue alarm Manual Call Point (PUCAY).........................................................................................17
1.5.3. - Modules ..................................................................................................................................................18
1.5.3.1‐Masterdetectionmodule(KMAY)....................................................................................................18
1.5.3.2‐Masterrelaysmodule(MDA1Y)
........................................................................................................19
1.5.3.3‐Masterrelaymodule(MDA2Y)..........................................................................................................19
1.5.3.4‐Technicalsignalsmodule(MSTAY)....................................................................................................21
1.5.3.5‐Loopisolator(KABY)..........................................................................................................................22
1.5.3.6‐Addressablesounder(SIRAY/SIRAYL/SIRAY+BSLC).......................................................................23
1.5.3.7‐Masterrelayandtechnicalsignalsmodule(MYOA).........................................................................25
1.5.4.- Repeaters..................................................................................................................................................26
1.5.4.1.‐Installation........................................................................................................................................26
1.5.4.2.OperationandConfiguration............................................................................................................26
1.5.4.3.‐Repeatermenus...............................................................................................................................27
1.5.5.- Control panels network ............................................................................................................................29
1.5.5.1.‐Installation........................................................................................................................................29
1.5.5.2.‐Operationandconfiguration............................................................................................................30
1.5.5.3.‐Controlpanelsnetworkmenu..........................................................................................................30
1.6.- Accessories. ....................................................................................................................................................32
1.6.1.- PC Keyboard............................................................................................................................................32
1.6.2.- PC based configuration software. ............................................................................................................32
2.- Installation.............................................................................................................................................................32
2.1.- Control panel installation................................................................................................................................32
2.2.- Lyon analogue system connection..................................................................................................................33
DOCLYONING-ENE19
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofe[email protected]- www.cofem.com 3
2.2.1.- Electrical supply network. .......................................................................................................................33
2.2.2.- Loop driver...............................................................................................................................................34
2.2.3.- Power supply auxiliary outputs and charging of power source batteries.................................................35
2.3.- Components....................................................................................................................................................36
2.3.1.- Batteries. ..................................................................................................................................................36
2.3.2.- Connection schematic of a typical loop. ..................................................................................................36
2.3.3.- Sounder and controls with relays.............................................................................................................38
2.3.3.1.‐Connectionoftheinternaltwotone24VSounder(SIR‐24B/SIR‐24BL)..........................................38
2.3.3.2.‐Connectionofthenon‐flashinginternal24VSounder(SIR24P)......................................................38
2.3.3.3.‐Connectionoftheflashinginternal24VSounder(SIR24F)..............................................................39
2.3.3.4.‐Connectingtheexternal24Valarmbox(CAE‐PL)...........................................................................39
2.4.- Accessories. ....................................................................................................................................................40
2.4.1.- PC keyboard.............................................................................................................................................40
2.4.2.- Computer. ................................................................................................................................................41
3.- Operation and configuration..................................................................................................................................43
3.1.- Description of the front panel.........................................................................................................................43
3.1.1.- Keypad. ....................................................................................................................................................43
3.1.2.- Light indicators. .......................................................................................................................................43
3.1.3.- Screen.......................................................................................................................................................44
3.2.- Access levels. .................................................................................................................................................44
3.2.1.- Level 1 access. .........................................................................................................................................47
3.2.1.1.‐Activationofthecontrolpanel........................................................................................................47
3.2.1.2.Incidentandanomalydisplay............................................................................................................49
3.2.1.3.‐Movingthroughincidents................................................................................................................51
3.2.1.4.‐Lookupincidents.............................................................................................................................51
3.2.1.5.‐Silencebuzzer...................................................................................................................................52
3.2.2. - Level 2 access. ........................................................................................................................................52
3.2.2.1.‐Accesscode.....................................................................................................................................52
3.2.2.2.‐Frontpanelkeypad...........................................................................................................................52
3.2.2.3.‐Resetevents.....................................................................................................................................52
3.2.2.4.‐Monitor............................................................................................................................................52
3.2.2.5.‐Activate/Deactivatelogicalrelays..................................................................................................53
3.2.2.6.‐Activate/Deactivategeneralrelays................................................................................................53
3.2.2.7.‐Systemconfiguration.......................................................................................................................53
3.2.2.8.‐Enable/Disableelementsandzones...............................................................................................53
3.2.2.9.‐Systemtest.......................................................................................................................................53
3.2.2.10.‐Welcomemessage.........................................................................................................................54
3.2.2.11.‐Generalreset.................................................................................................................................54
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
4 Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofem@cofem.com - www.cofem.com
3.2.2.12.‐Reviewhistory...............................................................................................................................54
3.2.3- Level 3 access. ..........................................................................................................................................55
3.2.3.1‐Accesscode.......................................................................................................................................55
3.2.3.2.‐Labelelements.................................................................................................................................55
3.2.3.3.‐Configure..........................................................................................................................................55
3.2.3.3.1.‐Loopconfiguration....................................................................................................................55
3.2.3.3.2.‐Configurelogicalrelays.............................................................................................................56
3.2.3.3.3.‐Configurealarmzones...............................................................................................................57
3.2.3.3.4.‐Configureelementsensitivity....................................................................................................57
3.2.3.3.5.‐Additionalpasswords................................................................................................................57
3.2.3.3.6.‐Configureauto‐evacuation........................................................................................................57
3.2.3.3.7‐AddedDelaySetup.....................................................................................................................58
3.2.3.3.8‐FastTriggerZone........................................................................................................................58
3.2.3.3.9‐SendZonestoRepeaters............................................................................................................58
3.2.3.4.‐Updatedateandtime......................................................................................................................58
3.2.3.5.‐Day/Nighttimes...............................................................................................................................58
3.2.3.6.‐Putintotest/normalmode..............................................................................................................58
3.2.3.7‐LedON/OFF.....................................................................................................................................
59
3.2.3.8.‐Languagemenu................................................................................................................................59
3.2.3.9.‐Communications..............................................................................................................................59
3.2.3.10.‐StopSounderFunction...................................................................................................................61
4.- Set-up. ...................................................................................................................................................................61
4.1.- Prior verifications. ..........................................................................................................................................61
4.2.- Supply.............................................................................................................................................................62
4.3.- Loops and relays.............................................................................................................................................62
4.4.- Faults ..............................................................................................................................................................63
Annex 1: Use of the Control Panel LYON / C-LYON / ZAFIR system....................................................................69
1. What is a control panel LYON / C_LYON /ZAFIR SYSTEM? ........................................................................69
2. Front panel of the system....................................................................................................................................69
3. What happens if the buzzer sounds?...................................................................................................................69
4. Checking the incident .........................................................................................................................................69
5. Evacuation ..........................................................................................................................................................70
6. SILENCE SIRENS .............................................................................................................................................70
7. RESET EVENTS................................................................................................................................................70
Annex 2: Elements configuration Lyon / C-Lyon / Zafir ...........................................................................................71
1. Introduction.........................................................................................................................................................71
2. Keypad access.....................................................................................................................................................71
3. Configuration of points in a loop........................................................................................................................72
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofe[email protected]- www.cofem.com 5
3.1. System Programming ...................................................................................................................................73
3.2. Configure......................................................................................................................................................73
3.3. Configure Loop ............................................................................................................................................73
3.4. Loop Configuration......................................................................................................................................73
3.5. Assign a number to Point .............................................................................................................................74
4. Programming verification process ......................................................................................................................74
5. Configure Zones ................................................................................................................................................74
6. Replacing a loop element....................................................................................................................................75
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
6
Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofem@cofem.com - www.cofem.com
CERTIFICATION
Lyon control panels are supplied with the following material:
2 end of line resistances 4K7 2W 5%
2 diodes DBY252
4 fuses: 1 A, 2 A, 4 A y 8 A.
0099
,
Crta. Molins de Rei a Rubí, Km 8,4 CP 08191 Rubí, Barcelona (España)
09 / 10
0099/CPR/A74/0074 – 0099/CPR/A74/0100
EN 54-2
Equipo de control e indicación para sistemas de detección y
alarma de incendios en edificios
Control and indicating equipment for fire detection and alarm
systems in buildings
“CDAn Lyon”
Comportamiento frente a incendios
Performance under fire condition Cumple/ Passed
Intervalo de respuesta (tiempo de respuesta al fuego)
Response delay (response time to fire) Cumple/ Passed
Seguridad Operacional
Operational reliability Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la temperatura
Durability of operational reliability, Temperature resistance
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la vibración
Durability of operational reliability Vibration resistance
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
estabilidad eléctrica
Durability of operational reliability: electrical stability
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la humedad
Durability of operational reliability: humidity resistance
Cumple/ Passed
EN 54-4
Equipo de suministro de alimentación de sistemas de
detección y alarma de incendios en edificios
Power supply equipment for fire detection and alarm systems
in buildings
“CDFA-01”
Comportamiento de suministro de alimentación/
Performances of Power Supply Cumple/ Passed
Fiabilidad en el funcionamiento/
Operational reliability Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la temperatura
Durability of operational reliability, Temperature resistance
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la vibración
Durability of operational reliability Vibration resistance
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
estabilidad eléctrica
Durability of operational reliability: electrical stability
Cumple/ Passed
Duración de la seguridad operacional y retardo a la respuesta;
resistencia a la humedad
Durability of operational reliability: humidity resistance
Cumple/ Passed
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofe[email protected]- www.cofem.com 7
1.- System description
1.1.- Introduction
The Analogue Fire detection Control Panel LYON is EN54-2 and EN 54-4 standard certified
according to the latest CE directives and can succesfully overcome difficult environmental conditions,
electrical interference, electromagnetic radiate upsets, vibrations, etc.
The Analogue Detection System represents the most modern technology in fire detection and
constitutes a natural evolution from the Identifiable Detection System towards equipment that not only is
able to identify the element that produces the alarm (sensor or button), but that also allows for the total
configuration of detection parameters (alarm levels, sensitivity,…) as well as the adaptation of the set-up to
the environmental conditions and the dirtiness of the sensor.
In the Cofem Analogue Detection System, the loop elements (sensors, manual call points, relay
modules, masters, analogue sounders and technical indicator modules) are auto-identifiable, in other words,
all of them can be installed with no need for prior manual encoding, facilitating enormously the assembly of
and subsequent modifications to the installation.
1.2.- Principle of operation
The Analogue Detection System is based on the measurement and transmission of the instant value
of the monitored magnitude (smoke, temperature or monoxide concentration), for their subsequent
processing in the control panel, which will consider the alert or standby status of the sensor.
The temperature, the smoke concentration and the amount of monoxide are sent through the
corresponding sensor in electrical voltages related to the measured magnitude.
After an adaptation process, an optimal relationship between the measured magnitude and the
electrical voltage is obtained.
Each sensor incorporates a microprocessor responsible for the digitisation of the analogue value read
in the sensor, for transmission of this value to the control panel and for identification of the sensor.
The main difference between the conventional and analogical detection systems lies in that for the
former the Voltage delivered by the transducer is compared with a predetermined and fixed threshold
(Valarm), obtaining from that comparison the system in standby or system in alarm status.
In the Digital Detection System, on the contrary, the value given by the transducer is constantly
recorded and processed, being possible to act on the detection parameters, as well as, for example, the alarm
threshold.
With this type of system, not only we can vary the sensitivity of the sensor, but we can even adapt
the sensitivity to the environmental conditions.
Each sensor on the Cofem Analogue Detection System transmits its analogue value to the control
panel with a regularity of less than 10 seconds. The control panel gathers the readings from each sensor and
determines the status thereof according to these instant readings, any previous readings (history), the pre-
programmed parameters and on the decision algorithm.
Note: Within the detection and fire alarm systems, there are 2 different technologies. In the
CONVENTIONAL SYSTEM, the detector or the alarm call point is causing alarm in the control panel. In
the ADDRESSABLE SYSTEM, the detector, the alarm call point or the module, is the device which
communicates the value of reading or state to the control panel, and this one processes the alarm state.
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
8 Tlf.: +34 935 862 690 - Fax:+34 936 999 261 - cofem@cofem.com - www.cofem.com
1.3.- Characteristics
Base control panel configurable and expandable from 1 to 20 loops.
Allows 199 connection elements per loop.
All the loop elements are monitored, except the KABY loop isolator.
Capacity for up to 199 configurable relays.
Enables programming of 99 zones.
File that stores up to 4095 events with date and time
Monitored delayable general siren output identified as “S1 SIRENA” (sounder).
Voltage-free non-monitored alarm output identified as “S2 ALARMA” (Alarm).
Non-monitored delayable free voltage general failure output identified as “S3 AVERIA” (Fault).
Evacuation button.
Backlit LCD display of 4 lines and 40 characters.
Incorporates Spanish, English, French, Portuguese, etc, languages.
Configurable and manageable through PC I-Link software.
Allows connection to an external keyboard (PC standard – PS2).
Allows connection of up to 15 repeaters and 15 network control panels.
MODBUS (See specific manual of this functionality).
Contact ID (See specific manual of this functionality).
Cofem REMOTE.
Size: 424 x 330 x 140 mm
IP30.
Certified and CE marked according to EN 54-2 and EN 54-4 Standard.
1.4.- Composition of the control panel
Backlit LCD display of 4 lines and 40 characters.
Keyboard made up of 13 keys that form two groups; one where the menu handling keys can be
found and the other where specific control panel functions may be performed.
15 LEDs that enable quick viewing of the control panel status (Supply, Mode of operation,
Alarms and Failures).
Communications port: USB 2.0.
Access to the interior of the control panel by means of a key.
Power supply: independent module responsible for controlling the Voltage of the primary 30V
supply that supplies the other boards. In this there are: protection fuses, 30V output, battery
connection terminals, relay outputs:
S1 SIRENA (Sounder): delayable monitored relay.
S2 ALARMA (Alarm): Voltage-free relay.
S3 AVERIA (Failure): free voltage delayable relay
Power supply controller: card that manages all the power supply information, that is to say,
monitors and controls the outputs and inputs of the power supply to subsequently send the
information to the CPU or to execute the instructions that it receives from the latter. The
communication is performed via RS485.
System managed by microprocessor.
Loop controller: modular cards incorporated into the rack system connected to the control panel
back panel (circuit with connectors and guides from the top left part). This card manages the
information corresponding to 4 loops, that is to say, for every 4 loops we must have a loop
controller. The communication between controller and the CPU are performed by means of
RS485.
Loop driver: modular cards incorporated in the rack system, located inside the box and
connected to its corresponding loop controller by means of a flat 26 strand cable. These are
configured as 1 or 2 loops depending on the number of loops of the control panel. The driver of
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
9
loops 1 and 2 will be plugged into the lower connector of the loop controller, and the driver of
loops 3 and 4 will be connected to the upper connector of the loop controller.
In a single box we will be able to connect 2 loop controllers and their 4 corresponding loop
drivers. Therefore for configurations in excess of 8 loops we will need two boxes.
Figure 1. Layout of circuits in the control panel
1.5. - Loop Elements Capacity
The number of devices that it is possible to connect to the loop is calculated of precise form by the software
of loop elements capacity calculation.
When it is not feasible to use the previous software, it can be used next table to obtain approximate capacity,
which, in a general way, gives values under the real performances of the system.
For this motive, it is necessary to check real capacity of the system by means of the loop elements capacity
calculation software when results of using table approximation doesn’t allow to satisfy the installation
necessities, as the real capacity of the system can be higher than expected by the tables.
To calculate the capacity of the system, it should take into account two parameters: The number equivalent
elements connected in the loop (shown in the table depending on cable length, cable section and control
panel model) and number of logic relays (also shown in the table).
The system will work properly when it meets the limits establieshed in the device limit per control panel.
For the system, the cable length is the length of the loop cable from the nearest element in the loop to the
control panel, measure to the other side of the control panel loop input/output. That means length cable is
always less that the cable length loop as it is shown in the figure.
CPU
Switching Power Supply
Power Supply
BackPanel
Loop
Controller
Loop
Driver
REMOTE
Card
USB
PS2
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
The cable material for the table is Cu with 41 Ω* mm2/Km, as it is stated in the corresponding note.
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
11
EXAMPLE OF CALCULATION
An installation requires 136 A30XHAS sensors, 17 PUCAY manual call points and 18 addressable
sounders SIRAY with standard sound level.
It is known that installation requires 1 loop cable of 500 m with 2x1,5 mm2section, where the
nearest device to control panel is 50 m.
First, it is made calculation using table of device limits per control panel, with a Lyon control panel,
2x1,5 mm2section, and cable lenght ≤500 m (for this case, cable lenght is 450 m). Following table is
obtained:
Devices in
installation
Elements
equivalence
according to table
Elements
consumption
Relays
equivalence
according to table
Relays
consumption
136 A30XHAS 1 136 - 0
17 PUCAY 1 17 - 0
18 SIRAY 6 108 1 18
TOTAL
171 Elements - 261 Elements - 18 Relays
Comparing these results with the boundaries of the control panel at the device limits of control panel,
we get:
Control panel Lyon Calculation RESULTS
Loop elements
consumption
199 261
199 < 261 →EXCESS
Relays limits 32 18 32 ≥18 →Ok
The limit of loop elements consumption of control panel is 199 elements. Calculation gets 261
elements, therefore, capacity of the loop is exceed.
Now, calculation will be accurately made by the software of loop elements capacity calculation.
500 m
loop
50 m
450 m
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
It is shown the results. Loop of control panel LYON perfectly support this configuration instead of
calculation by table of device limits per control panel were excess of capacity.
This example clearly states that it is important to check results by software of loop elements capacity
calculation when it is obtained excess performances by using the table of device limits per control panel.
It also could have achieved this result using the software directly.
LYON
450 m
1,5 mm
2
NºElements/Nº
Equipos
Model/
Modelo
SounddB/
SonidodB
PowerLight/
PotenciaLuz
17 PUCAY
0KMAY
0MSTAY
0MDA1Y
0MDA2Y
0MYOA
136 A30XHA/A30XHAS/
A30XTA/A30XHTCO
0KABY
18 SIRAY Standard
0SIRAYL Standard
0(SIRAY+BSLC) Standard Standard
78,21%
171
18NºRelays/NºReles=
LOOPELEMENTSDATA/DATOSELEMENTOSBUCLE
RESULTS/RESULTADOS
LOOPLOAD/CARGADELBUCLE=
NºElements/NºElementos=
Cablesection/Seccióndelcable=
LOOPELEMENTSCAPACITYCALCULATION
CÁLCULODECAPACIDADDEELEMENTOSDELBUCLE
GENERALDATA/DATOSGENERALES
ControlPanelModel/ModeloCentral=
Wirelenght/Longituddelcable=
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
13
1.5.1.- Analogue sensors
1.5.1.1.- Analogue smoke sensors (A30XHA & A30XHA-S)
The analogue smoke sensors measure the smoke particle
concentration by unit of volume present in the atmosphere. If we
designate by Y an un-dimensioned parameter proportional to the
smoke concentration, then Y will have to be close to zero, and will
be growing as the atmosphere is contaminated.
The implemented dynamic processing algorithms in the
control panel, use the Yalarm value as level for setting off the Alarm.
This preset level is at:
Yalarm = 40
This level can be manually modified from the control panel.
When the concentration of smoke exceeds the Alarm Level
(the average must exceed Yalarm) the alarm for the sensor is
activated.
Through the control panel, a level Ydirty (20) is set and when
this is exceeded the system warns us of the need to replace or repair
the sensor.
The Optical Smoke Sensor (A30XHA) is based on the
Tyndall effect created in an optical camera. The variation of the
electrical characteristics in the presence of combustion aerosols
makes it suitable as a smoke sensor.
The sensor element is formed by an optical camera provided
with an infrared emitter and receiver. In the absence of smoke the
intensity of infrared caught by the receiver is null, due to the
physical labyrinth created between the two. When smoke is present,
the infrared reflections from the particles of the same cause the
receiver to obtain a certain luminance intensity, (Voltage value proportional to the
level of obscuration), all of which is controlled by the microprocessor system.
This sensor has a thermistor, acting as a temperature sensor, triggering at 60ºC, considerably
augmenting its response to fire.
An optical smoke sensor without a thermal element is also available, with reference A30XHA-S.
The A30XHA and A30XHA-S are conformant with EN 54-7 with the conformity mark awarded by
AENOR.
The head and the base (interchangeable throughout the range of sensors) are made in thermal
resistant ABS.
The flashing of the red transparent LEDs indicates communication with the Control panel Lyon
system, and if they remain lit they indicate the alert status of the sensor.
Connection is made according to figure 2.
Technical specifications A30XHA and A30XHA-S
Supply 24 – 35 V any polarity
Standby consumption 1 mA
Alarm consumption 5 mA
Indicator activation Double red LED
Remote indicator output Yes
Humidity 20% – 95% RH
Temperature -10º + 50ºC
Sensitivity According to EN 54-7
IP IP40
Sensor A30XHA
Sensor A30XHAS
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
14
1.5.1.2.- Analogue temperature sensor (A30XTA)
The Analogue Temperature Sensor (A30XTA) measures the room temperature, as well as its rate of
change.
When the ambient temperature experiences slow
rates of change (less than 1ºC / min), the Alarm level remains
constant to 60ºC. However, for fast variations in temperature
(above 1 ºC/min), the control panel uses an algorithm capable
of evaluating the rate of change of temperature, and of
adjusting the Alarm level to different gradients (rate of rise
detection of temperature). In this way, a fast variation causes
a decrease in the Alarm threshold, thereby accelerating the
detection.
The chosen degree of sensitivity will depend on the
room temperature of the place where each sensor is installed,
and in each case the alarm temperature will adapt to the
chosen degree.
Also in the detection of temperature confirmation by means of two consecutive readings is used (less
than 10 seconds), before activation of the Alarm.
The operation principle is based on the physical properties of an NTC. The variation in electrical
characteristics of the thermistor, due to the variation of the room temperature, is what enables its use as a
sensor element.
The measurement made by the sensor is converted in a Voltage value, which is digitized and
transmitted to the control panel.
The A30XTA is conforms to EN 54-5 with the mark of conformity with the regulations awarded by
AENOR with an A2R sensitivity degree.
The head and the base (interchangeable throughout the range of sensors) are made in thermal
resistant ABS.
The flashing of the red transparent LED indicates communication with the Control panel Lyon
system, and if they remain lit they indicate the alert status of the sensor.
Connection is made according to figure 2.
Technical specifications A30XTA
Supply 24 – 35 V, any polarity
Standby consumption 1 mA
Alarm consumption 5 mA
Indicator activation Double red LED
Remote indicator output Yes
Humidity 20% – 95% RH
Temperature -10º + 50ºC
Sensitivity According to EN 54-5
IP IP20
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
15
1.5.1.3.- Analogue multi-sensor (A30XHTCO)
The analogue multi-sensor A30XHTCO has three
detection types: monoxide, temperature and smoke.
The analogue multi-sensors is able to measure three
types of parameters so the control panel calculates an
average by means of a dynamic processing algorithm which
will vary with the three phenomena. This processing
algorithm will avoid false alarms to a great extent thanks to
the incorporation of the monoxide sensor.
The processing algorithm is able to compensate for
dirt on the optical camera by combining the measurements
of the three different sensors.
The sensor element is formed by an optical camera
provided with an infrared emitter and receiver. In the
absence of smoke the intensity of infrared captured by the receiver is null, due to the physical labyrinth
created between the two. When smoke is present, the infrared reflections from the particles of the same cause
the receiver to obtain a certain luminance intensity, (Voltage value proportional to the level of obscuration),
all of which is controlled by the microprocessor system.
In addition, it has a carbon monoxide sensor with a fast response in the presence of CO which is
present in the vast majority of fires.
Finally this sensor has a thermal probe, acting as a thermal sensor, triggering at 60ºC, considerably
increasing its response to fire.
The A30XHTCO is conformant with EN 54-7 with the conformity mark awarded by AENOR.
The head and the base (interchangeable throughout the range of sensors) are made in thermal
resistant ABS.
The flashing of the red transparent LEDs indicates communication with the Centralised Lyon
system, and if they remain lit they indicate the alert status of the sensor.
Connection is made according to figure 2.
Technical specifications A30XHTCO
Supply 24 – 35 V any polarity
Standby consumption 1 mA
Alarm consumption 5 mA
Indicator activation Double red LED
Remote indicator output Yes
Humidity 20% – 95% RH
Temperature -10º + 50ºC
Sensitivity According to EN 54-7
IP IP40
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
Figure 2. Connection schematic A30XHA, A30XTA, A30XHTCO and PUCAY
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
17
1.5.2.- Analogue alarm Manual Call Point (PUCAY)
The re-settable Analogue and Addressable manual call
point (with short-circuit isolator) incorporates an action indicator
(LED) which is illuminated in the case of being manually
activated (alarm).
The flashing of the transparent red LED indicates
communication with the Control panel Lyon system, and if it
remains on it indicates the alert status of the button.
There is a version “PUCAYEXT” that it is computed by
control panel as the activation of 2 simultaneous devices. In this
way, crossed relay L and crossed relay SL can be trigged directly
when you push this PUCAYEXT. From loop device capacity,
PUCAYEXT version is considered as a PUCAY.
The connection is made according to figure 2.
The PUCAY is conformant with EN 54-11 with the conformity mark awarded by AENOR.
Note: To determine the number of PUCAY it can be installed, consult the devices limit per
control panel table (Chapter 1.5)
Technical specifications PUCAY
Supply 24 – 35 V with polarity
Standby consumption 1 mA
Alarm consumption 5 mA
Indicator activation red LED
Remote indicator output No
Humidity 20% – 95% RH
Temperature -10º + 50ºC
IP IP50
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
1.5.3. - Modules
1.5.3.1- Master detection module (KMAY)
Microprocessed analogue and addressable device (with short-circuit isolator) installed as another
element inside the loop.
This is a device that allows connecting conventional detectors and/or
manual call point inside an analogue fire detection system, realising the interface
function between the analogue detection system and the conventional one.
In the “Zona C” terminal, a maximum of 10 conventional call points can
be installed. In the “Zona D” terminal, it is allowed 20 temperature detectors
(A30XT, A30XV) or 15 elements between conventional smoke detectors
(A30XH, A30XHS) and manual call points. Both terminals are monitored by an
end of line capacitor, 10 µF/63V. In this way, it is indicated an open line, crossed
line, alarm detector or alarm manual call point status.
The flashing of the transparent red LED indicates communication with
the control panel, and if it remains on it indicates the alarm status of a detector or
manual call point connected to this module.
This module has an output for activation of a remote indicator which will
be activated when alarm status is reached. The Master Detection Module takes
the power supply from the loop.
The Master Detection Modules is placed in a rectangular, heat-resistant ABS box.
The KMAY is conformant with EN 54-18 with the conformity mark awarded by AENOR.
Connection is made according to figure 3.
Note: To determine the number of KMAY it can be installed, consult the devices limit per
control panel table (Chapter 1.5)
Figure 3. Connection schematic KMAY
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
1.5.3.2- Master relays module (MDA1Y)
Microprocessed analogue and addressable devices (with short-circuit
isolator) installed as another element inside the loop.
The Modules take the power supply from the loop, but they require an
auxiliary 30V supply to give the necessary energy to the devices controled by
the relays. They monitor the presence of Voltage in the auxiliary supply line of
30V and in the output of the monitored relays. The Module is protected by 0.9
A resettable fuse and each monitored output by 0,5 A. The flashing of the
transparent red LED indicates communication with the Lyon system.
Illumination of the green LED indicates the actuation of a relay.
The device is placed in a rectangular, heat-resistant ABS box.
This is a module with two relay outputs of simultaneous activation
(with a single function), not only in its type of application (sounder, switches
or crossed relay), but also in their timing and in the combination of sensors
that activate them. The R1 output relay is monitored with a line termination
resistance of 33KΩ, indicating the state of opened line or crossed line. The R2
output relay acts as a dry contact NO and NC, not monitored, which typical
application is the energising of the electromagnets of fire-resistant doors.
Considering the consumption produced across the system, it is recommended
installation of an External Power Supply when connecting more than 10 electromagnets altogether per
detection system.
The MDA1Y is conformant with EN 54-18 with the conformity mark awarded by AENOR.
Connection will be made according to figure 4.
Note: To determine the number of MDA1Y it can be installed, consult the devices limit per
control panel table (Chapter 1.5)
1.5.3.3- Master relay module (MDA2Y)
Microprocessed analogue and addressable devices (with short-circuit
isolator) installed as another element inside the loop.
The Modules take the power supply from the loop, but they require
an auxiliary 30V supply to give the necessary energy to the devices controled
by the relays. They monitor the presence of Voltage in the auxiliary supply
line of 30V and in the output of the monitored relays. The Module is
protected by 0.9 A resettable fuse and each monitored output by 0,5 A. The
flashing of the transparent red LED indicates communication with the Lyon
system. Illumination of the green LED indicates the actuation of a relay.
The device is placed in a rectangular, heat-resistant ABS box.
It is a module with two relay outputs of independent activation (two
functions), not only in their type of application (sounder, switches or crossed
relay), but also in their timing and in the combination of sensors that activate
them. In the standby state, the MDA2Y monitors both external line by means
of a 33 KΩresistance, indicating the state of open line or crossed line.
The MDA2Y is conformant with EN 54-18 with the conformity
mark awarded by AENOR.
Connection will be made according to figure 5.
Note: To determine the number of MDA2Y it can be installed, consult the devices limit per
control panel table (Chapter 1.5)
Digital fire detection control panel
LYON
FIRE PROTECTION MANUFACTURER
Ctra. de Molins de Rei a Rubí, Km. 8,4 - 08191 RUBÍ (Barcelona) ESPAÑA.
Figure 4. Connection Schematic
Figure 5. Connection Schematic
INPUT
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