Polon-Alfa IGNIS 2000 Installation guide
IGNIS 2000
CONVENTIONAL FIRE DETECTION AND ALARM SYSTEM
IGNIS 2040
FIRE DETECTION AND ALARM
CONTROL PANEL
Operation and Maintenance Documentation
ID-E339-001GB
I Edition
2 ID-E339-001GB
The IGNIS 2040 con entional fire detection and alarm control panel co ered by the present manual
complies with the requirements of the following European Union Directi es:
CPD 89/106/EWG on construction materials;
EMC 2004/108/WE on electromagnetic compatibility
LVD 2006/95/WE on low- oltage electric equipment.
The IGNIS 2040 control panel has been appro ed with the EC-Certificate of Conformity No.
1438/CPD/0243 issued by the Scientific and Research Centre for Fire Protection (CNBOP) Józefów,
Poland, an EU notified authority No. 1438, confirming its compliance with the requirements of PN-EN
54-2:2002+A1:2007 standard.
The de ice has been also appro ed with the Allowance Certificate No. 1131/2011 issued by CNBOP.
The certificate may be downloaded from www.polon-alfa.pl web site.
1438
Polon-Alfa Spółka z ograniczoną odpowiedzialnością Sp. k.
155, Glinki Street, PL 85-861 Bydgoszcz, POLAND
11
1438/CPD/0243
EN 54-2:1997+A1:2006
The IGNIS 2040 fire dete tion and alarm ontrol panel
Con entional, for indoor use
Pro ided options:
- fire alarming de ices output
- output signal delays
- interdependent alarming
- testing mode
- alarm counter
and additional functions, inputs and outputs: see technical data contained
in ID-E339-001GB manual
Read the manual carefully before the detector assembling and commissioning.
Any nonconformity with the instructions contained in the manual may be harmful or may cause
iolation of the law in force
POLON-ALFA bears no responsibility for any damage resulting from usage inconsistent with the
manual.
A waste product, unsuitable for further use, shall be passed to
a waste electric and electronic equipment collection point.
NOTE: The manufacturer reser es the right to change specifications of products at any time
without prior notice.
ID-E339-001GB 3
CONTENTS
1 INTRODUCTION ............................................................................................................ 4
1.1
DOCUMENTATION
CONTENTS ..................................................................................................................... 4
1.2
CONTROL
PANEL
APPLICATION .................................................................................................................... 4
1.3
SAFETY
CONDITIONS .................................................................................................................................... 4
1.3.1 Electric shock protection ..................................................................................................................... 4
1.3.2 Installation and equipment safety ....................................................................................................... 4
1.3.3 Repairs and maintenance .................................................................................................................... 4
1.3.4 Fuse replacement ................................................................................................................................ 5
1.4
DEFINITIONS ................................................................................................................................................ 5
2 DEVICE COMPLETENESS ................................................................................................ 5
3 TECHNICAL SPECIFICATIONS .......................................................................................... 6
4 DESIGN DESCRIPTIONS .................................................................................................. 7
4.1
GENERAL
CHARACTERISTICS ........................................................................................................................ 7
4.2
OVERALL
DIAGRAM ...................................................................................................................................... 8
4.3
CONTROL
PANEL
GENERAL
DESCRIPTION .................................................................................................... 8
4.4
CONTROL
PANEL
GENERAL
OPERATION
PRINCIPLE ..................................................................................... 9
4.5
MODULE
ARRANGEMENT ............................................................................................................................ 9
4.6
HANDLING
AND
SIGNALLING
ELEMENTS ................................................................................................... 10
4.7
CONTROL
PANEL
FUNCTIONS
AND
ACCESS
LEVELS .................................................................................... 13
4.8
LCD
INDICATIONS,
FUNCTIONS
APPLICATION ............................................................................................ 14
4.9
EVENT
MEMORY ........................................................................................................................................ 16
5 CONTROL PANEL OPERATION MODES ......................................................................... 17
5.1
QUIESCENT
MODE ...................................................................................................................................... 17
5.2
ALARM
MODE ............................................................................................................................................ 17
5.2.1 Fire alarm signalling ............................................................................................................................. 17
5.2.2 Fire alarm erification by the attending personnel ............................................................................. 17
5.2.3 Automatic alarm signal erification .................................................................................................... 18
5.3
FAULT
MODE ............................................................................................................................................... 18
5.4
DISABLEMENT
MODE ................................................................................................................................. 19
5.5
TESTING
MODE .......................................................................................................................................... 19
6 POWER SUPPLY .......................................................................................................... 19
6.1.
BASIC
POWER
SUPPLY ............................................................................................................................... 19
6.2.
RESERVE
POWER
SUPPLY .......................................................................................................................... 19
6.2.1 Automatic power supply switch-off ................................................................................................... 20
7 INSTALLATION ............................................................................................................ 20
7.1
CONTROL
PANEL
MOUNTING .................................................................................................................... 20
7.2
WIRING ...................................................................................................................................................... 20
8 CONTROL PANEL SPECIAL APPLICATIONS .................................................................... 21
8.1
EXPLOSION
ENDANGERED
PREMISES
PROTECTION ................................................................................... 21
9 INPUT AND OUTPUT CIRCUIT CONNECTING TERMINALS .............................................. 22
10 MAINTENANCE ......................................................................................................... 23
10.1
GENERAL
RULES ....................................................................................................................................... 23
10.2
PERIODICAL
TESTING ............................................................................................................................... 23
10.3
FUSE
REPLACEMENT ................................................................................................................................ 24
11 PACKING, STORAGE AND TRANSPORTATION .............................................................. 24
12 CONTROL PANEL COMMISSIONING INSTRUCTIONS AND PROPER OPERATION
CHECKING AFTER INSTALLATION ............................................................................... 25
APPENDIX A .................................................................................................................... 27
4 ID-E339-001GB
1 INTRODUCTION
1.1 DOCUMENTATION CONTENTS
The purpose of this Operation and Maintenance Documentation (OMD) is to present the application,
design and operation of the IGNIS 2040 fire detection and alarm control panel which constitute a
part of the fire detection and alarm system. The documentation contains necessary information on
the IGNIS 2040 control panels for designers, fitters and maintenance technicians. Together with the
User Manual IO-E339-001, intended for those who are on duty directly at the control panel, it makes
the complete operating documentation attached to the control panel and deli ered to its user.
1.2 CONTROL PANEL APPLICATION
The IGNIS 2040 fire control panel is designed to:
1. signal a fire occurrence detected by an interoperating fire warning de ices (automatic and
manual),
2. indicate a fire endangered place by identification of the alarming detection line ,
3. actuate fire protection equipment,
4. transmit a fire signal to proper ser ices, e.g. Fire Brigades.
The IGNIS 2040 control panel is intended for continuous operation in premises of low dust le el at
ambient temperature from - 5 °C to + 40 °C and air relati e humidity up to 80 % at +40 °C.
1.3 SAFETY CONDITIONS
1.3.1 Ele tri sho k prote tion
The POLON 4000 system fire control panels are ranked as the 1
st
protection class de ices and can be
used only in the case of application of additional protection against electric shocks, such as zeroing or
protecti e grounding.
230 V/50 Hz mains supply circuits insulation is reinforced and resists 2800 V oltage test; low- oltage
circuits (below 42 V) insulation is able to resist test oltage of 700 V DC.
1.3.2 Installation and equipment safety
Wire installation should be made using conductors of the required fire resistance and should be
properly protected in passages through fire zone boundaries. In order to a oid undesirable
interaction, a required distance between the low- oltage installation and a power installation and a
lightning protection system should be maintained. From the system electromagnetic interference
immunity, it is recommended to utilise protecti e grounding. Reser e power supply batteries should
be connected to the panel at the final stage of the installation.
The panel components are heat sensiti e. The maximum ambient temperature should not exceed
+ 40 °C. The space left around the de ice should be big enough to secure free air flow. Air humidity in
the premises where the panel operates should not exceed 95 %.
1.3.3 Repairs and maintenan e
Maintenance works and periodic inspections should be executed by skilled personnel employed by
companies authorised or trained by Polon-Alfa. Any repairs must be carried out by the manufacturer.
Polon-Alfa bears no responsibility for the operation of any apparatus being ser iced or repaired by
unauthorised personnel.
ID-E339-001GB 5
1.3.4 Fuse repla ement
In the e ent of fuse replacement, an equi alent fuse replacement should be used: of the appropriate
type and nominal alue. The appropriate types and nominal alues are contained in table 2.3.
1.4 DEFINITIONS
Conventional dete tion line
A two-core line with non-addressable detectors installed in, terminated with an end-of-line resistor.
Fire warning devi e
An element installed in detection lines triggering a fire alarm, e.g. a fire detector, manual call point.
Line number
A consecuti e number from the 1 ÷ 6 range, which is assigned to the control panel outputs where
detection lines are connected to.
Zone
A separated part of a super ised facility that specific warning de ices forming one detection line are
allocated to.
Standard onfiguration
A set of data sa ed in the control panel memory defining default parameters set by the
manufacturer, such as delay times, disablements, alarm ariants, etc.
Quies ent (supervision) mode
An operation mode, in which the control panel is power supplied from an electric energy source that
meets the settled requirements, during which no other operation mode is indicated.
Alarm (fire) mode
An operation mode the control panel triggers after receipt and erification of a fire occurrence signal
from fire warning de ices.
Disablement mode
An operation mode, in which it is deliberately blocked the control panel ability to recei e signals from
any fire warning de ices and to e oke alarms, or the control panel output and/or transmission path
to any fire detection and alarm system component that is a part of alarm circuit.
Testing mode
An operation mode in which the control panel indicates functioning checking.
Fault mode
An operation mode in which the control panel indicates a fault of anything in alarm installation or its
own circuits.
2 DEVICE COMPLETENESS
Table 2.1 lists the set of items which compose the IGNIS 2040 control panel furnishings.
Table 2.2 specifies auxiliary equipment that can be installed in the IGNIS 2040 control panels. This
equipment should be ordered separately.
Table 2.3 contains a list of the fuses used in the control panel.
Table 2.1
Item
Des ription
Quantity
1
2
3
4
5
IGNIS 2040 fire detection and alarm control panel
Operation and Maintenance Documentation (OMD)
Ser icing manual
Warranty certificate
Control panel unit package
1
1
1
1
1
6 ID-E339-001GB
Table 2.2
Item
Des ription
Remarks
1
2
3
4
5
6
12 V/3.2 Ah
÷7 Ah battery
Fire detectors
Detector bases
Manual call points
WZ-31 additional indicator
Signalling de ices
two pcs required for control panel
according to Appendix A
acc. to particular detector manual
according to Appendix A
according to offer
Table 2.3
Item Part des ription Quantity
1
2
3
F1 melt fuse F630L250
F2 melt fuse F500L250
F3 melt fuse T3,15L250
1 pc
1 pc
1 pc
3 TECHNICAL SPECIFICATIONS
GENERAL PARAMETERS
O erall dimensions L x H x G
Mass (without batteries)
Ingress protection
Operation temperature range
Allowable operation relati e humidity
Transportation temperature range
311 x 337 x 81 mm
< 4kg
IP 30
-5 °C ÷ +40 °C
95 % at +40 °C
-25 °C ÷ +55 °C
POWER SUPPLY
Basic power supply
:
−
−−
−
mains oltage
−
−−
−
max. power draw from mains
Reser e power supply:
−
−−
−
2 batteries, dim.: 151/65/98 (L/W/H)
−
−−
−
reser e power supply time
−
−−
−
battery charging current, max.
−
−−
−
maximum battery internal resistance (together
with connecting cables and clamps)
Battery current consumption:
−
−−
−
in quiescent mode, at max. line load
−
−−
−
in alarm mode, max.
External de ices power supply oltage
Admissible current draw from external de ices power
supply output, max.
230 V + 10 % - 15 % 50 Hz
0.5 A
2 x 12 V/7 Ah (optionally 3.2 Ah, 5 Ah)
72 h
0.6 A
2 Ω
55 mA
500 mA
24 V= ±15 %
400 mA
DETECTION LINES
Number of detection lines
Detection line resistance, max.
Number of detectors installed in a detection line, max.
Number of manual call points in a detection line, max.
4 ÷ 6 (depending on configuration)
2 x 100 Ω
32
10
ID-E339-001GB 7
Number of beam smoke detectors (DOP) a line, max.
End-of-line resistor in a detection line
Allowable quiescent current of warning de ices in a
detection line
Detection lines insulation resistance
1 (without an end
-
of
-
line resistor)
10 kΩ ±5%
1.6 mA
100 kΩ
INPUTS/OUTPUTS
Number of external
signalling de ices lines
Allowable signalling de ices lines resistance
Signalling de ices line operation oltage
Allowable L5 signalling de ices line current, max.
Allowable L6 signalling de ices line current, max.
Relay outputs:
general fault
fire alarm
programmable relays
USB connector
2 (replaceable with detection lines 5 and 6)
10 % of signalling de ices resistance, but
not more than 100Ω
24V= ±15 %
180 mA
180 mA
1 A / 30 V (NO or NC) – 1 pc.
1 A / 30 V (NO or NC) – 1 pc.
1 A / 30 V (NO or NC) – 6 pcs
for interoperation with PC computer
ALARMING OPTIONS
Fire alarm types
Alarm ariants
Alarm transmission delay time
1st stage alarm
2nd stage alarm
one-stage alarm
two-stage alarm with output signal delay
preliminary reset
interdependent alarming
0÷10 min (programmable with 5-s jump)
EVENT MEMORY
Memory capacity
E ent time record accuracy
Readout methods
999 e ents
1 s
on LCD display or in PC computer after
data transfer through USB connector
4 DESIGN DESCRIPTIONS
4.1 GENERAL CHARACTERISTICS
microprocessor-based control
LCD to display user messages
e ent memory
date and time display
USB connector to interoperate with PC computer
interoperation with Polon-Alfa 30 and 40 model range con entional detectors
up to 6 detection lines
up to 2 alarm lines
8 relay outputs
24 V output for external de ices power supply
programmable
− alarm ariants
− 0 ÷ 10 min delays
− relays
reser e power supply > 72 hours
appro ed to PN-EN54 standard.
8 ID-E339-001GB
4.2 OVERALL DIAGRAM
Fig. 1 O erall diagram
4.3 CONTROL PANEL GENERAL DESCRIPTION
The control panel is intended for wall mounting. The front side is made in the form of a metal co er
plate with a rectangular window in which all handling and signalling elements are located as well as a
liquid crystal display. The co er plate can be remo ed after unfastening 4 screws. Cable bushings are
located in the casing upper part and they are intended to introduce alarm installation wires and
mains power supply conductors. Some space is also pro ided there to place spare cables. The
ID-E339-001GB 9
following elements are located inside the cabinet on the printed board edge: wire connectors, restart
push button, battery connection push button, configuration jumpers and USB port of the e ent
recorder. The control panel general iew and dimensions are shown in Fig. 4.
4.4 CONTROL PANEL GENERAL OPERATION PRINCIPLE
The IGNIS 2040 is a con entional (non-addressable) control panel that interoperates with fire
detectors installed in two-core detection lines terminated with end-of-line resistors. The de ice
indicates a fire alarm or fault with a detection line accuracy.
The control panel processor continuously analyses all necessary information recei ed from the
detection lines, monitors handling element status, controls optical and acoustic signalling and
controls output circuit relays. It super ises the basic and reser e power supply circuits ad ising
possible faults.
4.5 MODULE ARRANGEMENT
The IGNIS 2040 control panel module arrangement is shown on Fig. 2.
1. Connection clamps for installation conductor screens.
2. Example of detection line wire introduction and connection.
3. Example of power supply line wire connection.
4. Relay outputs connector (detachable from the board).
5. Detection lines connector (detachable from the board).
6. External de ices 24 V power supply connector.
7. Configuration jumpers:
• S1…S8 – relay contacts configuration as closed or open,
• S9, S10 – L5 and L6 lines function setting as detection or alarm line,
• S11 – earth fault monitoring disconnection,
• S12 – input filters connection with casing.
8. USB connector.
9. S15 jumper – default (factory) access codes restoration.
10. ‘Restart’ push button.
11. ‘wł. aku’ push button – restart of the control panel power supplied by battery cluster only.
12. 24 V reser e power supply connector (battery cluster 2 x 12 V).
13. Potentiometer to adjust the battery buffering oltage.
14. Slot to insert a list of fire zone descriptions.
15. Control panel co er plate.
F1 – Battery circuit fuse - 630mA F.
F2 – External de ices power supply circuit fuse - 500mA F.
F3 – Mains power supply fuse - 3,15A T.
Fig.2 Control panel subassemblies arrangement
4.6 HANDLING AND SIGNALLING ELEMENTS
The push buttons, indicators (LCD diodes) placed on the control panel front plate are executed in the
form of a flexible foil keypad as shown in Fig. 3. The push buttons and indicators functions are
described in Table 4.1.
IK-E339-001E 11
Fig. 3 Handling and signalling elements
Table 4.1
Ite
m Des ription Element Fun tion
1
Red
diode
General fire alarm signalling with distinction:
•
1
st
stage fire alarm by flashing light,
•
2
nd
stage fire alarm by steady light
2
Yellow
diode
Control panel fault
mode signalling
Push
button
Number and description of current faults display on LCD
(‘quick’ access to function F.01 FAULTS READOUT)
3
Yellow
diode
Control panel fault disablement mode signalling
Push
button
Displaying disablements detailed
information on LCD
(‘quick’ access to function F.03 DISABLEMENTS).
4
Yellow
diode
Testing mode signalling
Push
button
Displaying the function enabling the control panel
testing on/off (‘quick’ access to function F.04
HARDWARE TESTING)
5
(
WYŁĄCZENIE
OPOŹNIENIA
)
Yellow
diode
Indication of reset of T1 and T2 delay times for actuation
of the alarming outputs (no delays)
Push
Delay disablement (switch off)
–
T1, T2 times reset
12 IK-E283-001E
button
/delay re
-
enablement (switch on)
–
return to settled T1,
T2 times
6
Yellow
diode
Indication of disablement of alarm signalling de ices
installed in L5 or L6 lines:
•
by flashing light – disablement of one line (L5 or
L6),if both were configured as alarm lines
•
by steady light – disablement of all signalling
de ices (both L5 and L6 alarm lines, or one alarm
lines if only one was configured as alarm line
Push
button
Disablement/ re
-
enablement of signalling de ices
installed in L5 or L6 line
7
Push
button
In the alarm mode:
•
acknowledgement of receipt of fire alarm by
personnel and the control panel internal
acoustic signalling de ice silencing
•
change of alarm outputs acti ation delay time
intended for fire danger recognition from T1 to
T2 (in the case of the two-stage alarm ariant))
In the fault mode:
•
fault acknowledgement and the control panel
internal acoustic signalling de ice silencing
8
Push
button
Reset of alarm mode of the control panel and detectors
in detection lines
9
Zone field
Red
diodes
Indication of
alarm mode of the zone (line) No. 1, 2, 3, 4,
5, 6
•
the first zone where the alarm mode occurred is
signalled by flashing light, afterwards by steady
light
•
zone fields enable text description of the fire
zone (from the bottom: a slot to insert a label
with description)
10
Green
diode
Indication of the control panel operation powered from
230 V/50 Hz mains or reser e battery;
11
Yellow
diode
Program memory fault, RAM memory fault or
configuration fault signalling.
12
LCD
display
Displaying the
information as per description in p. 4.8
13
Push
button
Main push button for the control panel menu handling.
•
‘short’ pressing < 1 s – entering the submenu
one le el down,
•
‘long’ pressing > 1 s – return to the submenu
one le el up.
14
Push
buttons
Push buttons for function selection, ‘scrolling’ e ents or
faults, selected parameter change.
Push
buttons
Parameter selection push buttons (mo ing cursor to the
left-right)
IK-E339-001E 13
4.7 CONTROL PANEL FUNCTIONS AND ACCESS LEVELS
Four access le els to handling elements are pro ided in the control panel:
1
st
access level intended for the persons who take first measures after a fire or fault signal
occurrence. At this access le el, the ACKNOWLEDGEMENT (17), FAULT (2) and DELAY RESET (5) push
buttons are acti e, as well as an access code entering function.
2
nd
access level is pro ided for persons holding special responsibility for safety who are trained and
authorised to ser ice the control panel within a limited scope. The second access le el is obtainable
by appropriate access code entering. It allows to use all the push buttons located on the de ice’s
front panel and functions that do not change the control panel programmed configuration.
3
rd
access level is designed for trained persons who are authorised to change the configuration data
and carry out maintenance works. The 3
rd
access le el is obtained by proper access code entering.
4
th
access level is pro ided for persons trained and authorised by the manufacturer to change the
factory software and use the ser ice functions. The access le el is reachable by appropriate access
code entering.
Default access codes:
• 2
nd
access le el – 2 0 0
• 3
rd
access le el – 3 0 0
• 4
th
access le el – 4 0 0
The default access codes can be changed to the user’s codes with the help of the F.11 function.
Note! The default access codes restoring can be executed by closing the 1-2 contacts of the S15
jumper located on the printed board.
Table 4.2 presents the functions that are a ailable at the control panel menu after rele ant code
entering.
Table 4.2
Fun tion
No.
Fun tion name
A ess level required for
this fun tion
F.01
FAULT READOUT
1
st
or 2
nd
, or 3
rd
, or 4
th
F.02
DISABLEMENTS
2
nd
or 3
rd
, or 4
th
F.03
HARDWARE TESTING
2
nd
or 3
rd
, or 4
th
F.04
EVENT READOUT
2
nd
or 3
rd
, or 4
th
F.05
STANDARD CONFIGURATION
3
rd
or 4
th
F.06
LINE CONFIGURATION
3
rd
or 4
th
F.07
RELAY PROGRAMMING
3
rd
or 4
th
F.08
DELAY SETTING
3
rd
or 4
th
F.09
EVENT MEMORY RESET
4
th
14 IK-E283-001E
F.10
DIAGNOSTICS FUNCTIONS
4
th
F.11
ACCESS CODE CHANGE
4
th
F.12
DATE AND TIME SETTING
4
th
4.8 LCD INDICATIONS, FUNCTIONS APPLICATION
The IGNIS 2040 control panel is equipped with an alphanumeric 2 x 20 characters liquid crystal
display (LCD) that enables configuration parameters setting and readout of information on the
control panel status.
During the control panel normal operation, in the quiescent mode, the LCD displays the date and
time. The remaining functions are supported by a menu that enables a particular function selection
after appropriate access code loading in accordance with Table 4.3.
Any mo ement within the menu is possible using the ENTER push button. A short pressing results
in a submenu opening. The submenu lea ing and entering one le el up is performed by a longer (> 1
s) pressing of the same push button.
Table 4.3
Function name
(LCD display)
Description
FAULTS READOUT
F.01 Enter
Readout of current faults detected by the control panel
Function recall – push button short pressing
Exit – longer than 1 s pressing
FAULTS QUANTITY: 03
–
Quantity of all faults (e.g.03).
01. Line 2 break
–
Fault number (e.g. 01); fault name
Faults re iew with the push buttons
DISABLEMENT
F.02 Enter
Disablement of detection (alarm) line or relay output
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
Lines: 1 2 3 4 5 6
–
1..6
–
detection (alarm) line number
PK: 1 2 3
4 5 6 7 8
–
1..8
–
relay number
Selection of line number or relay number in order to its disablement or
re-enablement – using push buttons
Disablement – setting 0 with the help of push buttons instead of
line/relay number.
Re-enablement – setting line number 1...6 or relay number 1…8.
HARDWARE TESTING
F.03 Enter
Testing of control panel diodes, acoustic signalling de ice and detection
lines
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
Diodes test: OFF
–
OFF
–
diodes test (LEDs) disabled
Test of Line: 0 0 0 0 0
0
–
0 0 0 0 0 0
–
line 1..6 testing disabled.
Test selection with push buttons
Enablement of front panel diodes and internal sounder testing by
changing ON instead of OFF with push buttons
Enablement of detection line testing by setting line number 1..6 instead
IK-E339-001E 15
of 0 with push buttons
EVENTS REAOUT
F.04 Enter
Readout of e ents recorded in control panel memory
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
184. L1 alarm reset
–
E ent No. (e.g. 184); e ent name
2011
-
01
-
05
15:20:44
–
Date and time of e ent occurrence
E ents re iew with push buttons. Latest recorded e ent has No. 1
STANDARD CONFIG.
F.05 Enter
Standard (default) configuration settings loading
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
STANDARD CONFIGUR.?
–
Load the standard configuration?
NO
–
NO
–
no changes in configuration settings
Attention! Entering YES with push button results in replacing all
configuration settings with the standard (default) ones.
LINE CONFIGURATION
F.06 Enter
Detection (alarm) lines configuration settings
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
L. 1 detection ON
–
line No. (e.g. 1); line type (e.g. detection); on/off
Al. ar.
–
3 coinc. with
L. 2
–
alarm ariant No.; coincidence with a line (e.g. 2)
Function enables setting of required
line parameters:
L. 1 – number of line being programmed
ON – on/off (disablement) of line,
Al. ar. – alarm ariant assignation:
0, 1 ,2, 3
coinc. with L 2 – means No. of line (e.g. 2) operating in coincidence with
line being programmed – only for alarm ariant 3.
Selection of parameter to be changed – with push buttons,
parameter change – with push buttons
Note: 5 and 6 line type change from detection to alarm one possible only
with the help of terminal block jumpers in quiescent mode.
RELAY PROGRAMMING
F.07 Enter
Relay actuation programming
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
PK: 2 ON alarm 1
–
PK No. (e.g. 2); on/off; PK actuating e ent
(e.g. alarm 1 )
Lines: 0 2 0 0 0 0
–
No. of line (e.g.2) that PK actuating e ent is connected with
Function allows to allot to e ery relay 1..6 e ent that will e oke its
actuation.
ON - on/off (disablement) of relay,
Possible e ents:
alarm 1 – zone 1st stage alarm,
alarm 2 – zone 2nd stage alarm,
alarm P – fire 2nd stage alarm (general),
reset – relay connectors switcho er for reset time.
For e ents: alarm 1, alarm 2 it is necessary to settle line (zone) that will
e oke relay actuation.
Selection of parameter - with push buttons
Parameter change – with push buttons
16 IK-E283-001E
DELAYS SETTING
F.08 Enter
2nd stage alarm delays setting
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
Time for acknowl. T1 =
0’30
–
T1
-
delay of 2nd stage alarm without acknowledgement
2nd stage alarm delay
T2=2’30
–
T2
-
delay of 2nd stage alarm with acknowledgement
Selection of T1 or T2 using push buttons
Times being programmed with with 5-s inter al. (e.g. 2’30-
means 2 min and 30 s)
Note: T1 time for acknowledgement should be shorter than T2 time
pro ided for alarm erification.
EVENT MEMORY
ERASURE
F.09 Enter
E ent memory erasure
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
EVENTS ERASURE ?
–
Concerns e ents recorded in control panel memory.
NO
–
NO
–
by default lack of e ent memory erasure.
Attention! Switching to YES with push button results in erasure of all
e ents recorderd in control panel non- olatile memory.
DIAGNOSTIC
FUNCTIONS F.10
Enter
Diagnostic functions (intended for factory ser ice)
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
Software ersion:
V1.0
–
Information name
–
Value being read out
Change of displayed information with push buttons
ACCESS CODE CHANGE
F.11 Enter
Access code change
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
Access code change
–
Operation name
Le el: 2 code: 0 0
0
–
Access le el No., 3
-
digit code
Note: Default codes restoration
is done automatically
–
by closing 1
-
2
contacts of S15 jumper located on printed board – Fig. 2
DATE & TIME SETTING
F.12 Enter
Date and time setting
Function recall – push button short pressing
Exit – push button longer than 1 s pressing
CSP IGNIS 2040
2011-01-05 15:20:44
–
Copan name
–
Year
-
month
-
day hour : min : sec
Selection of alue being set - with push buttons
Setting – using push buttons.
4.9 EVENT MEMORY
The software necessary for the e ent memory readout and information materials are a ailable in
Internet on the www.polon-alfa.pl web site after obtaining an access code.
Hardware requirements concerning PC computer:
o accessible USB port;
o hard disc of ca. 25 MB free memory;
o installed Windows 98/ME/2000/XP/Vista/7 operating system
IK-E339-001E 17
Before starting the program, the computer should be connected to the control panel with a typical
USB cable ended with an A type USB plug (the computer’s end) and a B type plug (the control panel’s
end). After detection of a new de ice connected to the USB port and the Ignis2win.exe program
launching, the control panel and computer are ready for the e ent memory contents transmission.
The transmission starts after the icon ‘e ent list download’ clicking.
5 CONTROL PANEL OPERATION MODES
5.1 QUIESCENT MODE
In the quiescent mode, i.e. while the control panel is waiting for a signal from fire warning de ices,
only the green POWER (10) diode is lit on the front panel to inform that power supply is on. In
addition, the current time and date are displayed on the LCD display (12).
The general fire alarm relays and zone relays are inacti e, and the general fault relay is in an acti e
state (no fault).
5.2 ALARM MODE
5.2.1 Fire alarm signalling
The following indications can be obser ed on the control panel front side during the fire alarm:
- at least one of the ZONE 1…6 zone indicating diodes is lit; the first zone where a fire has
occurred is distinguished with flashing light, all others are lit with steady light;
- the FIRE diode is lit with steady light – the 2
nd
stage fire alarm or with flashing light – the 1
st
stage fire alarm;
- a fire alarm message, indicating the zone (or zones) number and the elapsing time remaining
until fire alarm relays are acti ated (transmission), appear on the LCD;
- an internal acoustic signalling de ice is switched on, with a 0.5 s/0.5 s inter al signal
- acti e alarm lines generate a signal that actuates external alarm de ices.
The control panel acoustic signal can be silenced at the 1
st
access le el by pressing the
ACKNOWLEDGEMENT push button.
External de ices can be disabled (or re-enabled) after entering the 2
nd
le el access code by the
SIGNALLING DEVICES DISABLEMENT push button.
5.2.2 Fire alarm verifi ation by the attending personnel
The control panel enables an occurrence erification by the personnel in case a fire alarm has been
re ealed. It is required that the attending person approaches the panel and confirms an alarm
receipt within a programmed T1 time by pressing the ACKNOWLEDGEMENT push button. In case the
person on duty fails to acknowledge the alarm receipt within the T1 time period, the control panel
initiates an alarm transmission outside (e.g. to the monitoring centre or fire brigade) after the T1
time lapse or automatically actuates the fire-fighting equipment (depending on the system
configuration). After the fire alarm receipt acknowledgment, the person on duty is gi en an
additional T2 time for recognition of a real fire threat in the premises. Both T1 and T2 times are
programmable; the T2 time should be longer than the T1 time.
The elapsing time left for the alarm acknowledgment and for the threat recognition by the person on
duty is displayed on the LCD (5).
In case a threat does not exist, the person should reset the alarm mode with the RESET push button.
This operation is effecti e when no fire factor is present in the icinity of the fire warning de ice that
has e oked the alarm and after the 2
nd
access le el is obtained by the code entering.
18 IK-E283-001E
5.2.3 Automati alarm signal verifi ation
The control panel possesses algorithms that enable erification of fire alarm signal coming from fire
warning de ices. Recognition of the recei ed signal as a fire alarm is preceded by multiple checking
readout of the line status.
Moreo er, it is a possible to program the following alarm ariants for e ery detection line:
1
One-stage alarm – variant 0 without any delay, in which a line element actuation
immediately triggers the 2
nd
stage fire alarm (the alarm transmission relays actuation).
2
Two-stage alarm – variant 1 two-stage alarm with a programmable delay time T2 = 0…10 min
for the 2
nd
stage fire alarm indication. Lack of the personnel acknowledgement shortens the
delay time to the programmed T1 time; the RELAYS DISABLEMENT push button pressing will
result in the delay time zeroing and immediate outputs actuation.
3
One-stage alarm with a preliminary reset, (type A dependence in accordance with PN
standard) – variant 2 without any delay, in which the first detector actuation e okes its
immediate reset. An alarm is triggered after a repeated acti ation of any detector in the same
line before 60 s ± 10 s time lapse from the pre ious actuation. After 60 s ± 10 s time passing
without any new alarm triggering, the control panel returns to the initial mode.
4
One-stage alarm with a line interdependen e ( oin iden e), (type B dependence in
accordance with PN standard) – variant 3 without any delay, in which it is possible to create
pairs of interdependent zones. The first alarm e oked in a line belonging to an
interdependent pair actuates only the internal acoustic buzzer, zone field indication and LCD
signalling (without the general fire indicator actuation). The 2
nd
stage fire alarm is triggered
immediately after entering the alarm mode by the other line belonging to the interdependent
pair under a condition that the first alarm has not been reset. The first alarm lasts until its
manual reset.
5.3 FAULT MODE
The fault mode is signalled by the control panel by the yellow FAULT (2) diode and by an acoustic
fault signal. The acoustic fault signal is an interrupted sound in 0.5 s/0.5 s cycle. Detailed information
about a fault type is a ailable on the LCD display after the F.01 FAULT READOUT function selection or
after the FAULT (2) push button pressing at the 1
st
access le el.
The control panel fault mode is signalled in case of:
- a break of or a short circuit in any detection line;
- a break of or a short circuit in alarm (external acoustic signalling de ice) line;
- a mains power supply fault;
- a battery fault resulting from its internal resistance increase abo e 2 Ω or a lack of a battery;
- a battery charging de ice fault;
- a break in the charging circuit;
- a F1 fuse insert burn-out;
- a microprocessor system fault;
- an earth fault, i.e. connection of any control panel circuit or any line attached to it with the
control panel metal casing or with other grounded objects.
Silencing of the sound signal is possible at the 1
st
access le el by pressing the ACKNOWLEDGEMENT
push button. A reset of light signalling proceeds automatically after the fault remo al. The only
exception is a kind of system fault resulting from the microprocessor controller serious fault, which
cannot be silenced, due to its importance, with the ACKNOWLEDGEMENT push button. A system
fault resulting from false configuration data can be silenced with the ACKNOWLEDGEMENT push
button but in such the case it is necessary to check the control panel configuration settings and,
e entually, correct them. If the signalling still persists, after such checking/correcting, it means that
IK-E339-001E 19
the control panel is damaged. It is necessary to switch the control panel power supply off and call the
ser ice personnel.
In the fault mode, the PK8 general fault relay is released.
5.4 DISABLEMENT MODE
The disablement mode is signalled by the control panel by the yellow DISABLEMENT (3) diode. Any
disablement and re-enablement (and the disabled outputs readout) is possible after entering at least
2
nd
access le el code and with the DISABLEMENT (3) quick access push button or using the F.03
DISABLEMENT function. The disablement concerns all inputs/outputs/L1 ÷ L6 line outputs and PK1 ÷
PK8 relay outputs. The disabled detection lines are inacti e, they do not report any fault or alarm,
and relay and alarm outputs are switched off. The yellow DISABLEMENT (3) diode stops the
disablement mode indication when all disablements are remo ed.
5.5 TESTING MODE
The control panel allows for testing fire warning de ices in detection lines by actuating them with
e.g. fire factor imitators. Switching a zone (line) into the testing mode is possible after entering at
least 2
nd
access le el code. Testing is executed utilising the F.04 HARDWARE TESTING function, which
is a ailable immediately after pressing the TESTING push button. During the testing mode, the
control panel does not indicate a fire alarm and does not actuates any outputs linked with it. The test
alarm indication is limited to the red diode flashes in the zone field of the number consistent with the
detection line being tested. The signalling duration time is equal to se eral seconds, it begins at the
moment when a test alarm is reported by the detector and control panel and is finished with an
automatic reset.
The F.04 HARDWARE TESTING function enables also an efficiency inspection of all diodes located on
the control panel front side and internal acoustic signalling de ice.
In general, the testing mode is indicated by the TESTING (4) diode when at least one line is switched
o er into the testing mode.
6 POWER SUPPLY
6.1. BASIC POWER SUPPLY
The control panel basic power supply source is 230 V/50 Hz mains. A oltage alteration within +10 %
and -15 % range does not influence the control panel proper operation. The control panel internal
power supply de ice has the general current efficiency at 1.5 A, which is used for the control panel
and charging circuits power supply; 0.4 A load is reser ed for auxiliary external de ices.
6.2. RESERVE POWER SUPPLY
In case of mains oltage outage, the control panel is supplied from a reser e battery cluster of 24 V
nominal oltage and 3.2 ÷ 7 Ah capacity. A switch-o er from the main power supply to the reser e
one is carried out automatically, without any break in power supply. The approximate control panel
operation time when it is supplied from the batteries only at the full lines load (in the quiescent
mode and + 0.5 h in the alarm mode), with no current draw from the external de ice power supply
output, is presented in Table 6.1 for arious battery capacities.
Table 6.1
Battery apa ity Approximate ontrol panel
operation time
3.2 Ah
47 hours
20 IK-E283-001E
5 Ah
76 hours
7 Ah
108 hours
(25% ageing decrease in the batteries capacity has been considered)
During the control panel configuration, when some current consumption by auxiliary external de ices
is considered (especially during the quiescent mode), it is important to take into consideration that
the reser e battery powered de ice operation time will be accordingly shorter. The battery cluster is
automatically charged by the control panel power supply de ice.
The efficiency of both the batteries and charging de ice is continuously monitored and any fault is
being signalled. The battery is recognised as inoperati e when its internal resistance (together with
the connection resistance) increases and exceeds 2 Ω.
The battery installation, operation and waste-disposal must be carried out pursuant to the
manufacturer’s manual. A waste battery must be deli ered to a proper collecting and recycling point
in accordance with the law in force.
6.2.1 Automati power supply swit h-off
During the control panel operation, being powered only from the battery cluster, the battery oltage
progressi ely decreases. A reser e power supply oltage drop down to ca. 22 V is acoustically
signalled. Further decline in the battery panel oltage and achie ing ca. 21 V le el will result in the
control panel automatic switch-off. The power supply renewed switch-on, after a properly charged
battery re-connection, may require pressing of the WŁ.AKU push button which is located inside the
control panel on the printed circuit board.
7 INSTALLATION
7.1 CONTROL PANEL MOUNTING
The control panel should to be mounted on a wall using three expansion anchor bolts of minimum
diameter at 8 mm. The spacing of the fastening bolt holes is shown in Fig. 4. The control panel
mounting is possible only without batteries.
7.2 WIRING
Detection, alarm and controlling lines should be routed according to the commonly applicable
principles used in telecommunications. The lines must be continuous and terminated with end-of-
line resistors. They can be routed alongside high oltage electrical conductors.
The detection line wires can be inserted into the control panel from the installation led in the wall
plaster. They are introduced into the control panel upper part through round bushings: separately
the mains supply wires and low- oltage wires. The terminals of the detection lines and relay outputs
on the printed circuit board are remo able what enables easy wire connection. The connection
terminals arrangement and descriptions is presented in Fig.2.
This manual suits for next models
1
Table of contents
Other Polon-Alfa Fire Alarm manuals
