E2S D2xC2LD3 User manual
__________________________________________________________________________________________________________________
European Safety Systems Ltd. Impress House, Mansell Road, Acton, London W3 7QH sales@e2s.com Tel: +44 (0)208 743 8880
www.e2s.com Fax: +44 (0)208 740 4200
Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 1 of 11
INSTRUCTION & SERVICE MANUAL
D2xC2LD3 ALARM HORN AND LED
For Use In Hazardous Locations
1) Warnings
DO NOT OPEN WHEN AN EXPLOSIVE
ATMOSPHERE IS PRESENT
DO NOT OPEN WHEN ENERGISED
POTENTIAL ELECTROSTATIC CHARGING
HAZARD - CLEAN ONLY WITH A DAMP
CLOTH
DO NOT PAINT
Avertissement:
NE PAS OUVRIR UN PRESENCE
D’ATMOSPHERE EXPLOSIVE
NE PAS OUVRIR ENERGIE
DANGER POTENTIEL CHARGE
ÉLECTROSTATIQUE - NETTOYER
UNIQUEMENT AVEC UN CHIFFON HUMIDE
NE PAS PENINTURER
2) Rating & Marking Information
2.1 Public Mode Fire Alarm Ratings
The D2xC2LD3DC024 is certified for use as a public mode
audible and visual alarm device in accordance with UL464
Tenth Edition / CAN/ULC-S525 Fourth Edition and UL1638
Fifth Edition / CAN/ULC-S526 Fourth Edition.
For use in public-mode fire alarm systems the equipment
must be installed without the wire guard or plastic lens cover
on the beacon.
For light output ratings of the beacon see section 12.
The sounder section produces a sound pressure level above
75dB(A) at 10 feet:
For Fire Alarm applications, the Sounder Volume must be at
the highest setting, (see volume control section).
The sounder section produces a sound pressure level above
75dB(A) at 10 feet.
For Fire Alarm applications, the Sounder Volume must be at
the highest setting, (see volume control section).
For fire alarm use, the temporal pattern tone No. 12 as per the
tone table provided in these instructions must be selected. This
tone produces a minimum sound pressure level of:
CAN/ULC-S525: 100.4dB(A)* at 10 feet.
(*Tested in an anechoic room)
UL464: 92.2dB(A)† at 10 feet.
(†Tested in a reverberation room)
Testing of synchronization requirements of UL1971 & UL1638 /
CAN/ULC-S526 were conducted by UL using a total of 6 units
connected to the same wire run. Auto-synchronization does not
require the use of any external sync modules or protocols.
Providing the correct cable has been selected (see section 6) an
unlimited number of units will remain synchronized when
powered from the same source.
2.2 Private Mode Fire Alarm Ratings
The D2xC2LD3DC024 is approved for use as an Audible and
Visual Appliance for use in Private Mode Fire Alarm System in
accordance with UL464 Tenth Edition / CAN/ULC-S525 Fourth
Edition and UL1638 Fifth Edition / CAN/ULC-S526 Fourth
Edition.
For use in private-mode fire alarm systems the equipment must
be installed without the wire guard or plastic lens cover on the
beacon.
For light output ratings see section 12.
2.3 NEC & CEC Class / Division Ratings for US / Canada
The D2xC2LD3 LED beacon complies with the following
standards:
UL1971 Ed. 3 2018
UL1638 Ed. 5 2017 / CAN/ULC-S526 Ed. 4
UL464 Ed. 10 2017 / CAN/ULC-S525 Ed. 4
CSA C22.2 No. 205-17
ANSI/ISA 12.12.01-2015
CSA C22.2 No. 213-16
The D2xC2LD3 LED beacon is rated as follows:
Class I Div 2 ABCD T4 Ta -40°C to +50°C
Class II Div 2 FG T6 Ta -40°C to +50°C
Class III Div 1&2 Ta -40°C to +50°C
The certification approval has validated continuous use up to
38°C and are for transient use up to 50°C ambient.
Installation must be carried out in compliance with the National
Electric Code / Canadian Electric Code
2.4 NEC Class / Zone ratings US
The D2xC2LD3 LED beacon complies with the following
standards:
UL 60079-0-2017
UL 60079-15-2017
UL 60079-31-2015
The D2xC2LD3 LED beacon is rated as follows:
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 2 of 11
Class I Zone 2 AEx nA IIC Gc T4 Ta -40°C to +50°C
AEx tc IIIC 75°C Dc Ta -40°C to +50°C
Installation must be carried out in compliance with the
National Electric Code.
2.5 CEC Class / Zone ratings Canada
The D2xC2LD3 LED beacon complies with the following
standards:
CAN/CSA C22.2 No. 60079-0:2015
CAN/CSA C22.2 No. 60079-15:2016
CAN/CSA C22.2 No. 60079-31:2015
The D2xC2LD3 LED beacon is rated as follows:
Ex nA IIC Gc X T4 Ta -40°C to +50°C
Ex tc IIIC 75°C Dc X Ta -40°C to +50°C
Installation must be carried out in compliance with the
Canadian Electric Code
2.6 ATEX / IECEx certification
The D2xC2LD3 LED beacon complies with the following
standards:
EN60079-0:2012+A11:2013 / IEC60079-0: ed. 6.0 (2011-06)
EN60079-15:2010 / IEC60079-15: ed. 4.0 (2010-01)
EN60079-31:2014 / IEC60079-31:2013 ed. 2.0 (2013-11)
Certificate No. DEMKO 14 ATEX 4786493904X
IECEx ULD 14.0004X
The D2xC2LD3 LED beacon is rated as follows:
CE Marking
Zones, Gas / Dust Groups and Temperature Classification
When connected to an approved system the D2XC2LD3 LED
beacon may be installed in:
Zone 2 explosive gas air mixture not likely to occur
in normal operation, and if it does, it will only exist for
a short time.
Zone 22 explosive dust air mixture not likely to occur
in normal operation, and if it does, it will only exist for
a short time.
May be used with gases in groups:
Group IIA propane
Group IIB ethylene
Group IIC hydrogen / acetylene
Having a temperature classification
(for Gas applications) of:
T1 450ºC
T2 300ºC
T3 200ºC
T4 135ºC
May be used with Dust types:
Group IIIA combustible flyings
Group IIIB non-conductive dust
Group IIIC conductive dust
Maximum Surface Temperature for Dust Applications:
75ºC
Installation must be carried out in compliance with the
latest issue of the following standards:
EN60079-14 / IEC60079-14: Explosive atmospheres - Electrical
installations design, selection and erection
EN60079-10-1 / IEC60079-10-1: Explosive atmospheres -
Classification of areas. Explosive gas atmospheres
EN60079-10-2 / IEC60079-10-2: Explosive atmospheres –
Classification of areas. Explosive dust atmospheres
2.7 Ingress Protection Ratings
The product is rated for ingress Protection as follows:
IP rating IP66
Type rating per UL50E / NEMA250: 4 / 4X / 3R / 13
To maintain the ingress protection rating, the cable entries must
be fitted with suitably rated, certified cable entry and/or blanking
devices during installation.
2.8 Electrical Ratings
It is important that a suitable power supply is used to run the
equipment. The power supply selected must have the
necessary capacity to provide the input current to all the units.
The input current will vary according to the voltage input level.
The current levels shown above are for the worst-case input
voltage and flash setting resulting in max. current.
For detailed current ratings of the device please see Section 13.
3) Special Conditions for Safe Use
Special Condition for safe Use as stated on the Type
Examination Certificate DEMKO 14 ATEX 4786493904X /
CoC/IECEx ULD 14.0004X:
When used for a Group III application, the surface of the
enclosure may store electrostatic charge and become a source
of ignition in applications with a low relative humidity <~30%
relative humidity where the surface is relatively free of surface
contamination such as dirt, dust, or oil.
Guidance on protection against the risk of ignition due to
electrostatic discharge can be found in EN TR50404 and IEC
TR60079-32.
End user shall adhere to the manufacturer’s installation and
instruction when performing housekeeping to avoid the potential
for hazardous electrostatic charges during cleaning, by using a
damp cloth.
To maintain the ingress protection rating and mode of
protection, the cable entries must be fitted with suitably rated,
certified cable entry and/or blanking devices during installation.
If conduit is used for installation, seal conduit within 18 inches
from the enclosure.
0213
II 3G Ex nA IIC T4 Gc Ta -40°C to +50°C
II 3D Ex tc IIIC 75°C Dc Ta -40°C to +50°C
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European Safety Systems Ltd. Impress House, Mansell Road, Acton, London W3 7QH sales@e2s.com Tel: +44 (0)208 743 8880
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 3 of 11
Beacon
Cover
M4 Screws
(4-off)
147,0mm [5,73in.]
116,0mm [4,52in.]
213,3mm [8,32in.]
165,6mm [6,46in.]
9,7mm [0,38in.]
6,7mm [0,26in.]
Ø6,9mm [Ø0,27in.]
310,3mm [12,10in.]
125,0mm [4,88in.]
168,0mm [6,55in.]
Sounder
Cover
M4
Screws
(4-off)
4) Location and Mounting
The location of the combined alarm horn and beacon should
be made with due regard to the area over which the warning
signal must be visible and audible. It should only be fixed to
services that can carry the weight of the unit.
DxC2 Alarm Horn and Strobe to a flat surface via the two 9.7
x 6.7mm, 147mm pitch fixing holes in the mounting feet of the
sounder section and the two 7mm fixing holes in the feet of
the base.
The equipment is not to be mounted with the horn facing
upwards.
Fig. 1 Fixing locations.
5) Access to the Enclosure
To access the enclosures, loosen the four M4 posi pan head
screws of the beacon and loosen the four M4 posi pan head
screws of the sounder and withdraw the covers.
Fig. 2 Accessing the Enclosures.
To replace covers, check that the ‘O’ ring seals are in place.
Carefully push the covers in place. Insert M4 screws with fibre
washers and tighten to 3Nm torque.
6) Selection of Cable, Cable Glands, Blanking
Elements & Adapters
When selecting the cable size, consideration must be given to
the input current that each unit draws (see Table 1), the number
of units on the line and the length of the cable runs. The cable
size selected must have the necessary capacity to provide the
input current to all of the sounders connected to the line.
When selecting the cable size consideration must be given to
the voltage drop over the length of the cable run to ensure the
min. input voltage at the point of use (voltage range, see section
13)
The voltage drop depends on:
- The total current draw of the devices installed on this
cable run
- The wire size and total length of the cable run,
determining the total resistance of this cable run
- The minimum output voltage supplied by the power
supply
The voltage drop and input voltage at the point of use can be
calculated as follows:
Total Wire resistance =
Wire resistance / 1000ft x length of cable run x 2
(length of cable run needs to be multiplied by two to account for
two wires going to and from the unit)
Total current draw =
Current draw per unit x number of units
Voltage Drop = Total current draw x Total wire resistance
Minimum output of power supply =
Min. voltage at point of use + voltage drop
The entries are available as one of the following options:
2-off M20 x 1.5 thread & 1-off ¾” NPT thread;
2-off ½” NPT thread & 1-off ¾” NPT thread
If a high IP (Ingress Protection) rating is required then a suitable
sealing washer must be fitted under the cable glands or
blanking plugs.
For use in explosive dust atmospheres, a minimum ingress
protection rating of IP6X must be maintained.
For use in explosive gas atmospheres, a minimum ingress
protection rating of IP54 must be maintained.
NPT plugs should be greased before insertion.
7) Cable Connections
Electrical connections are to be made into the terminal blocks
on the PCBAs located in the enclosures. See section 5 of this
manual for access to the enclosures.
The Sounder and Beacon are supplied connected by default. In
order to power the beacon and sounder separately, the link
wires between the units must be disconnected.
Wires having a cross sectional area between 0.5 mm² to
2.5mm² can be connected to each terminal way. If an input and
output wire is required the 2-off +/- terminals of the beacon or 3-
off +/- terminals of the sounder can be used. If fitting 2-off wires
to one terminal way the sum of the 2-off wires must be a
maximum cross sectional area of 2.5mm². Strip wires to 8mm.
Wires may also be fitted using ferrules. Terminal screws need to
Warning –High voltage may be present,
risk of electric shock. DO NOT open when
energised, disconnect power before
opening.
Warning –Hot surfaces. External surfaces
and internal components may be hot after
operation, take care when handling the
equipment.
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 4 of 11
- - + +
STAGE 4 =
S2 + S3
(Customer
Supplied switches)
+
-
S2
-+ + + - - S3
S2
S3
-- + + S2
-+ + + - - S3 -- + +
External
Earth
Internal
Earth
STAGE 4 =
S2 + S3
(Customer
Supplied switches)
be tightened down with a tightening torque of 0.56 Nm / 5 Lb-
in. When connecting wires to the terminals great care should
be taken to dress the wires so that when the cover is inserted
into the chamber the wires do not exert excess pressure on
the terminal blocks. This is particularly important when using
cables with large cross sectional areas such as 2.5mm².
8) Wiring
8.2 Wiring Diagrams
Fig. 3a Simplified Block Diagram Beacon & Sounder
Powered Simultaneously
+
-
S2
-+ + + - - S3
S2
S3
-- + + S2
-+ + + - - S3 -- + +
+
-
Fig. 3b Simplified Block Diagram Beacon & Sounder
Powered Independently
8.3 Units First Stage Tones
Stage one (S1) operation: Simply connect the supply voltage
to the + and - supply terminals, (see fig. 3). The beacon is
powered via factory installed wires connected to the alarm
horn. The wires connecting the alarm horn and strobe can be
removed if the user wishes to power the strobe separately.
8.4 Second, Third and Fourth Stage Tone Selection
Stage two (S2) operation: Power +ve and –ve, link a -ve
supply line to the S2 terminal.
Stage three (S3) operation: Power +ve and –ve, link a -ve
supply line to the S3 terminal.
Stage four (S4) operation: Power +ve and –ve, link a -ve
supply line to both the S2 & S3 terminals.
Strobe will continue to flash during alarm horn S2, S3 & S4
stages.
Fig. 4 Terminals
9) Earthing
The beacon bas has both internal and external earth points,
(please see fig 5). The sounder PCBA also has earth terminals,
(see fig 4).
Internal earthing connections should be made to the internal
earth point on the beacon, (please see fig 5). The earth
conductor should be at least equal in size and rating to the
incoming power conductors. The internal earth bonding wires
connect the covers to the internal earth points in the bases.
External earth connections should be made to the M5 earth
stud, using a ring crimp terminal to secure the earth conductor
to the earth stud. The external earth conductor should be at
least 4mm2in size. The external earth crimp ring should be
located between the two M5 plain washers provided and
securely locked down with the M5 spring washer and M5 nut.
Fig. 5 Earth locations
10) End Of Line Monitoring
On DxC2 DC units, dc reverse line monitoring can be used if
required. All DC units have a blocking diode fitted in their supply
input lines. An end of line monitoring resistor can be connected
across the +ve and –ve terminals. If an end of line resistor is
used it must have the following values:-
24V DC Alarm Horn and Strobe
Minimum Resistance 3k9 ohms Minimum wattage 0.5W
Minimum Resistance 1k ohms Minimum wattage 2.0W
The resistor must be connected directly across the +ve and
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 5 of 11
-ve terminals of the PCBA, as shown in the following
diagrams. Whilst keeping its leads as short as possible, a
spacing of at least 1/16 inch (1.58mm) must be provided
through air and over surfaces between uninsulated live parts.
Fig. 6a End of Line Resistor Forming
Fig. 6b End of Line Resistor Placement - Beacon
Fig. 7a End of Line Resistor Forming
Fig. 7b End of Line Resistor Placement –Sounder
11) Setting
11.1 Volume Control
The alarm horn output level of the DxC2 unit can be set by
adjusting the volume control potentiometer (see Fig 8). For
maximum output, set the potentiometer fully clockwise.
Fig. 8 Location of field controls
11.2 Tone Selection
The DxC2 alarm horns have 64 different tones. The tones are
selected by operation of the tone setting DIP switches (see Fig.
9 & 10) on the PCB. The alarm horns can also be switched to
sound the second, third and fourth stage alarm tones. The tone
table (Table 1) shows the switch positions for the 64 tone and
which tones are available for the second, third and fourth
stages.
11.3 Flash Rate Setting
The D2xC2LD3 beacons can produce different flash patterns as
shown in Table 1. The flash patterns are selected by operation
of the flash setting DIP switch on the PCB, Fig 10.
Fig. 9: DIP Switch Location
1=ON; 0=OFF
Table 1: Switch Positions for Flash Patterns
Fig. 10 Dip Switch
Example shown: 01 = Flashing 1.33Hz
Switch
Setting
Mode
00
1Hz (60FPM)
01
1.33Hz (80FPM)
10
1.5Hz (90FPM)
11
2Hz (120FPM)
Volume
Control
Tone Setting
Switches 1-6
(See tone
selection table)
End Of Line Resistor
Warning –high-intensity light source. Avoid
looking directly at the light source for
extended periods of time.
- +
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 6 of 11
12) Maintenance, Overhaul & Repair
Maintenance, repair and overhaul of the equipment should
only be carried out by suitably qualified personnel in
accordance with the current relevant standards:
IEC/EN60079-19 Explosive atmospheres - Equipment repair,
overhaul and reclamation
IEC/EN60079-17 Explosive atmospheres - Electrical
installations inspection and maintenance
To avoid a possible ELECTROSTACTIC CHARGE the unit
must only be cleaned with a damp cloth.
Units must not be opened while an explosive atmosphere is
present.
If opening the unit during maintenance operations a clean
environment must be maintained and any dust layer removed
prior to opening the unit.
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 7 of 11
13) Light output for Fire alarm use
In order to meet the requirements for UL 1971, (D2xC2LD3DC024 only when used without plastic lens cover or wire guard), the
installation must be carried out to the correct NFPA standards and guidelines.
13.1 Horizontal Light Output Dispersion for wall mounting –public mode
0° 15°
15° 30° 45°
60°
75°
90°
90°
30°
45°
60°
75°
Fig. 12 –Horizontal dispersion angles for wall mounting
Table 3 - Horizontal Light Output Dispersion for Wall Mounting
Viewing Angle
% Of Rating
Intensity (cd)
at 1Hz flash
rate
Intensity (cd)
at 1.33Hz flash
rate
Intensity (cd)
at 1.5Hz flash
rate
Intensity (cd)
at 2Hz flash
rate
0º
100
77.4
74.5
74.6
79.3
5º
90
69.6
67.0
67.2
71.4
10º
90
69.6
67.0
67.2
71.4
15º
90
69.6
67.0
67.2
71.4
20º
90
69.6
67.0
67.2
71.4
25º
90
69.6
67.0
67.2
71.4
30º
75
58.0
55.8
56.0
59.5
35º
75
58.0
55.8
56.0
59.5
40º
75
58.0
55.8
56.0
59.5
45º
75
58.0
55.8
56.0
59.5
50º
55
42.6
41.0
41.0
43.6
55º
45
34.8
33.5
33.6
35.7
60º
40
30.9
29.8
29.9
31.7
65º
35
27.1
26.1
26.1
27.8
70º
35
27.1
26.1
26.1
27.8
75º
30
23.2
22.3
22.4
23.8
80º
30
23.2
22.3
22.4
23.8
85º
25
19.3
18.6
18.7
19.8
90º
25
19.3
18.6
18.7
19.8
45º Compound
24
18.6
17.9
17.9
19.0
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 8 of 11
13.2 Vertical Light Output Dispersion for wall & ceiling mounting –public mode
75° 60° 45°
30°
15°
0°
90°
0°
15°
30°
45°
60°
75°
90°
15° 30° 45°
60°
75°
90°
Table 5 –Vertical Light Output Dispersion for Ceiling Mounting
Viewing Angle
% Of Rating
Intensity (cd)
at 1Hz flash
rate
Intensity (cd)
at 1.33Hz flash
rate
Intensity (cd)
at 1.5Hz flash
rate
Intensity (cd)
at 2Hz flash
rate
0º
100
77.4
74.5
74.6
79.3
5º
90
69.6
67.0
67.2
71.4
10º
90
69.6
67.0
67.2
71.4
15º
90
69.6
67.0
67.2
71.4
20º
90
69.6
67.0
67.2
71.4
25º
90
69.6
67.0
67.2
71.4
30º
75
58.0
55.8
56.0
59.5
35º
75
58.0
55.8
56.0
59.5
40º
75
58.0
55.8
56.0
59.5
45º
75
58.0
55.8
56.0
59.5
50º
55
42.6
41.0
41.0
43.6
55º
45
34.8
33.5
33.6
35.7
60º
40
30.9
29.8
29.9
31.7
65º
35
27.1
26.1
26.1
27.8
70º
35
27.1
26.1
26.1
27.8
75º
30
23.2
22.3
22.4
23.8
80º
30
23.2
22.3
22.4
23.8
85º
25
19.3
18.6
18.7
19.8
90º
25
19.3
18.6
18.7
19.8
45º Compound
24
18.6
17.9
17.9
19.0
All light output ratings min. values as per UL 1971 / UL1638 / CAN/ULC-S526 at worst-case (min.) input voltage.
13.3 On-axis light output rating –private mode
Model
Accessories
Intensity (cd) at 1Hz
D2xC2LD3DC024
No Guard, No Lens
107.5
Fig 13 –Vertical dispersal angles for wall
mounting X & Y planes
Fig 14 –Vertical dispersal angles for ceiling
mounting X & Y planes
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Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 9 of 11
14) Electrical Ratings
14.1 Operating current Consumption
Table 6 –Electrical Ratings
Model
Nom.
Voltage
Voltage
Range
Flash Rate Setting
Nom. operating
current#
Max. operating
current##
Beacon
Sounder
Beacon
Sounder
D2xC2LD3DC024
24Vdc
Regulated
(16-33Vdc)*
Flashing 1Hz
153mA
250mA
465mA
250mA
Flashing 1.33Hz
189mA
488mA
Flashing 1.5Hz
203mA
456mA
Flashing 2Hz
248mA
528mA
* For Public Mode or private mode Fire Alarm or General Signaling use
# nominal rms current at nominal voltage
## max. rms current at worst-case voltage in voltage range.
14.2 Surge current for Fire Alarm system use
Table 7a –Beacon Surge Currents
Model
Nom. Voltage
Voltage Range
Flash Rate Setting
Init. Peak Surge
Current*
Init. RMS Surge
Current*
D2xC2LD3DC024
24Vdc
Regulated
(16-33Vdc)
1Hz (60fpm)
1.18A
950mA
1.33Hz (80fpm)
1.22A
998mA
1.5Hz (90fpm)
1.2A
990mA
2Hz (120fpm)
1.22A
980mA
Table 7b –Sounder Surge Currents
Model
Nom. Voltage
Voltage Range
Init. Peak Surge
Current*
Init. RMS Surge
Current*
D2xC2LD3DC024
24Vdc
Regulated
(16-33Vdc)
2.3A
930mA
*Surge currents at worst-case voltage in voltage range.
15) Sound Directional Characteristics for Canadian Fire CAN/ULC-S525
Angle
OSPL
Angle
OSPL
Reference (90°)
101.2 dB(A)
Reference (90°)
101.2 dB(A)
115°
-3 dB(A)
68°
-3 dB(A)
129°
-6 dB(A)
55°
-6 dB(A)
180°
92.4 dB(A)
0°
92.4
Angle
OSPL
Angle
OSPL
Reference (90°)
101.5 dB(A)
Reference (90°)
101.5 dB(A)
123°
-3 dB(A)
65°
-3 dB(A)
137°
-6 dB(A)
50°
-6 dB(A)
180°
91 dB(A)
0°
88.5 dB(A)
__________________________________________________________________________________________________________________
European Safety Systems Ltd. Impress House, Mansell Road, Acton, London W3 7QH sales@e2s.com Tel: +44 (0)208 743 8880
www.e2s.com Fax: +44 (0)208 740 4200
Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 10 of 11
1600Hz
1400Hz 1s
0.5s
16) Tone Table
Tone Selection –To select the required first stage tone set the tone switches 1 to 6 (see Fig 2) to the tone setting shown in the table below. The table also shows
which 2nd, 3rd and 4th stage tones are available for use with the selected first stage tone if more than one tone output stage is required.
Stage 1
Tone No
Tone Description
Tone Visual
Switch Settings
1 2 3 4 5 6
Stage 2
Tone
(S2)
Stage 3
Tone
(S3)
Stage 4
Tone
(S2 + S3)
1
1000Hz PFEER Toxic Gas
0 0 0 0 0 0
3
2
44
2
1200/500Hz @ 1Hz DIN /
PFEER P.T.A.P.
1 0 0 0 0 0
1
3
44
3
1000Hz @ 0.5Hz(1s on, 1s
off) PFEER Gen. Alarm
0 1 0 0 0 0
1
2
44
4
1.4KHz-1.6KHz 1s, 1.6KHz-
1.4KHz 0.5s NF C 48-265
1 1 0 0 0 0
44
24
1
5
544Hz(100mS)/440Hz
(400mS) NF S 32-001
0 0 1 0 0 0
52
19
1
6
1500/500Hz - (0.5s on , 0.5s
off) x3 + 1s gap AS4428
1 0 1 0 0 0
7
44
1
7
500-1500Hz Sweeping 2 sec
on 1 sec off AS4428
0 1 1 0 0 0
6
44
1
8
500/1200Hz @ 0.26Hz(3.3s
on, 0.5s off) Netherlands -
NEN 2575
1 1 1 0 0 0
44
24
35
9
1000Hz (1s on, 1s off)x7 + (7s
on, 1s off) IMO Code 1a
0 0 0 1 0 0
18
34
1
10
1000Hz (1s on, 1s off)x7 + (7s
on, 1s off) IMO Code 1a
1 0 0 1 0 0
21
34
1
11
420Hz(0.5s on, 0.5s off)x3 +
1s gap ISO 8201 Temporal
Pattern
0 1 0 1 0 0
44
1
8
12
1000Hz(0.5s on, 0.5s off)x3 +
1s gap ISO 8201 Temporal
Pattern
1 1 0 1 0 0
44
1
8
13
422/775Hz - (0.85 on, 0.5
off) x3 + 1s gap NFPA -
Temporal Coded
0 0 1 1 0 0
44
1
8
14
1000/2000Hz @ 1Hz
Singapore
1 0 1 1 0 0
23
3
35
15
300Hz Continuous
0 1 1 1 0 0
44
24
35
16
440Hz Continuous
1 1 1 1 0 0
44
24
35
17
470Hz Continuous
0 0 0 0 1 0
44
24
35
18
500Hz Continuous IMO code
2 (Low)
1 0 0 0 1 0
44
24
35
19
554Hz Continuous
0 1 0 0 1 0
64
24
35
20
660Hz Continuous
1 1 0 0 1 0
44
24
35
21
800Hz IMO code 2 (High)
0 0 1 0 1 0
44
24
35
22
1200Hz Continuous
1 0 1 0 1 0
44
24
35
23
2000Hz Continuous
0 1 1 0 1 0
15
3
35
24
2400Hz Continuous
1 1 1 0 1 0
48
20
35
25
440 @0.83Hz (50
cycles/minute) Intermittent
0 0 0 1 1 0
1
44
8
26
470 @0.9Hz - 1.1s
Intermittent
1 0 0 1 1 0
1
44
8
27
470Hz @5Hz - (5
cycles/second) Intermittent
0 1 0 1 1 0
1
44
8
28
544Hz @ 1.14Hz - 0.875s
Intermittent
1 1 0 1 1 0
44
24
8
29
655Hz @ 0.875Hz
Intermittent
0 0 1 1 1 0
1
44
8
30
660Hz @0.28Hz - 1.8sec on,
1.8sec off Intermittent
1 0 1 1 1 0
44
24
8
31
660Hz @3.34Hz - 150mS on,
150mS off Intermittent
0 1 1 1 1 0
30
24
8
1000Hz
1000Hz 1s
1s
544Hz
440Hz
0.1s
0.4s
1500Hz
500Hz 0.5s 0.5s 1.5s
0.5s 0.5s 0.5s
1500Hz
500Hz 2s 1s
1200Hz
500Hz 3.3s 0.5s
1s 1s 1s 7s
7s
1s 1s 1s 1s 1s 1s 1s
1000Hz 1s 1s 1s 1s
0.5s
0.5s
0.5s
1.5s
420Hz 0.5s
0.5s
1000Hz 0.5s
0.5s
0.5s
0.5s
0.5s
1.5s
775Hz
422Hz 0.85s 0.5s 0.85s 0.5s 0.85s 1.5s
2000Hz
1000Hz 1s
300Hz
440Hz
470Hz
500Hz
554Hz
660Hz
800Hz
1200Hz
2000Hz
2400Hz
440Hz 0.6s
0.6s
470Hz 0.55s
0.55s
470Hz 0.1s
0.1s
470Hz 0.43s
0.44s
655Hz 0.57s
0.57s
660Hz 1.8s
1.8s
660Hz 0.15s
0.15s
500Hz
1s
1200Hz
__________________________________________________________________________________________________________________
European Safety Systems Ltd. Impress House, Mansell Road, Acton, London W3 7QH sales@e2s.com Tel: +44 (0)208 743 8880
www.e2s.com Fax: +44 (0)208 740 4200
Document No. D211-00-671-IS Issue: A 29-11-19 Sheet 11 of 11
32
745Hz @ 1Hz Intermittent
1 1 1 1 1 0
44
24
8
33
800Hz - 0.25sec on, 1 sec off
Intermittent
0 0 0 0 0 1
53
24
8
34
800Hz @ 2Hz IMO code 3.a
(High) Intermittent
1 0 0 0 0 1
56
24
8
35
1000Hz @ 1Hz Intermittent
0 1 0 0 0 1
44
24
8
36
2400Hz @ 1Hz Intermittent
1 1 0 0 0 1
21
24
8
37
2900Hz @ 5Hz Intermittent
0 0 1 0 0 1
53
24
8
38
363/518Hz @ 1Hz Alternating
1 0 1 0 0 1
1
8
19
39
450/500Hz @ 2Hz Alternating
0 1 1 0 0 1
1
8
19
40
554/440Hz @ 1Hz Alternating
1 1 1 0 0 1
44
24
19
41
554/440Hz @ 0.625Hz
Alternating
0 0 0 1 0 1
1
8
19
42
561/760Hz @0.83Hz (50
cycles/minute) Alternating
1 0 0 1 0 1
1
8
19
43
780/600Hz @ 0.96Hz
Alternating
0 1 0 1 0 1
1
8
19
44
800/1000Hz @ 2Hz
Alternating
1 1 0 1 0 1
5
24
19
45
970/800Hz @ 2Hz Alternating
0 0 1 1 0 1
1
8
19
46
800/1000Hz @ 0.875Hz
Alternating
1 0 1 1 0 1
53
24
19
47
2400/2900Hz @ 2Hz
Alternating
0 1 1 1 0 1
57
24
19
48
500/1200Hz @ 0.3Hz
Sweeping
1 1 1 1 0 1
44
24
12
49
560/1055Hz @ 0.18Hz
Sweeping
0 0 0 0 1 1
44
24
12
50
560/1055Hz @ 3.3Hz
Sweeping
1 0 0 0 1 1
44
24
12
51
600/1250Hz @ 0.125Hz
Sweeping
0 1 0 0 1 1
44
24
12
52
660/1200Hz @ 1Hz
Sweeping
1 1 0 0 1 1
64
24
12
53
800/1000Hz @ 1Hz Sweeping
0 0 1 0 1 1
56
24
12
54
800/1000Hz @ 7Hz Sweeping
1 0 1 0 1 1
57
24
12
55
800/1000Hz @ 50Hz
Sweeping
0 1 1 0 1 1
54
24
12
56
2400/2900Hz @ 7Hz
Sweeping
1 1 1 0 1 1
57
24
12
57
2400/2900Hz @ 1Hz
Sweeping
0 0 0 1 1 1
47
24
12
58
2400/2900Hz @ 50Hz
Sweeping
1 0 0 1 1 1
54
24
12
59
2500/3000Hz @ 2Hz
Sweeping
0 1 0 1 1 1
44
24
12
60
2500/3000Hz @ 7.7Hz
Sweeping
1 1 0 1 1 1
44
24
12
61
800Hz Motor Siren
0 0 1 1 1 1
44
24
12
62
1200Hz Motor Siren
1 0 1 1 1 1
44
24
12
63
2400Hz Motor Siren
0 1 1 1 1 1
44
24
12
64
Simulated Bell
1 1 1 1 1 1
44
21
12
745Hz 0.5s
0.5s
800Hz 0.25s
1s
800Hz 0.25s
0.25s
1000Hz 0.5s
0.5s
2400Hz 0.5s
0.5s
2900Hz 0.1s
0.1s
1250Hz
600Hz 8s
1450Hz 0.25s
0.69ms
1200Hz
500Hz 3.34s
1055Hz
560Hz 5.47s
1055Hz
560Hz 0.3s
1200Hz
660Hz 1s
1000Hz
800Hz 1s
1000Hz
800Hz 0.14s
1000Hz
800Hz 0.02s
2900Hz
2400Hz 0.14s
2900Hz
2400Hz 1s
2900Hz
2400Hz 0.02s
3000Hz
2500Hz 0.5s
3000Hz
2500Hz 0.13s
800Hz
1.6s
1200Hz
2s
2400Hz
1.7s
363Hz
518Hz 0.5s 0.5s
500Hz 0.25s 0.25s
450Hz
554Hz 0.5s 0.5s
440Hz
554Hz 0.8s 0.8s
440Hz
760Hz 0.6s 0.6s
561Hz
780Hz 0.52s 0.52s
600Hz
1000Hz 0.25s 0.25s
800Hz
970Hz 0.25s 0.25s
800Hz
2900Hz 0.25s 0.25s
2400Hz
1000Hz 0.57s 0.57s
800Hz
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