Draeger Flame FD10 Range
1700 Ultraviolet Flame Detector
Technical Manual
en
Technical Manual
2 - 39
!
WARNING
You must read, understand, and follow these instructions for use
before you use the flame detector in order to ensure the proper
operation and function of the flame detector.
Contents
For Your Safety.................................................................................................................... 3
Safety Symbols used in this Manual................................................................................... 5
Intended Use ....................................................................................................................... 6
Installation of the Dräger Flame Detector 1700 ................................................................. 9
Operation .......................................................................................................................... 16
Maintenance .......................................................................................................................17
Specications .................................................................................................................. 18
Approvals........................................................................................................................... 20
Accessories ........................................................................................................................21
Supplier’s Declaration of Conformity ............................................................................... 22
For Your Safety
For Your Safety
Strictly follow these Instructions for Use
Any use of the device requires full understanding and strict observation of this Technical Manual and the
Instructions for Use provided with the device. The device is only to be used for the purposes specied herein and
in the Instructions for Use. This manual and in the Instructions for Use should be carefully read by any individuals
who have or will have responsibility for using or maintaining this device.
Maintenance
The device must be inspected and serviced by experts at regular intervals and a record kept. Repair and general
over-haul of the device may only be carried out by trained service personnel. We recommend that a service
contract be obtained with Dräger Safety and for repairs.
!
WARNING
Under no circumstances should the detector housing be opened in
hazardous areas. Detectors contain no user-serviceable parts and
should never be opened, other than for access to the terminal
compartment. Under no circumstances should any components be
substituted. Failure to comply with this requirement may invalidate
the hazardous area certification or disturb the critical parameters of
the detector resulting in damage or failure to detect fires. Observe
chapter ‘Maintenance’.
Use in areas subject to explosion hazards
The Dräger Flame Detector 1700 is certied for and is intended for use in potentially hazardous areas, and is one
of the family of detectors certied under the designation FD10. All certicates will refer to the FD10.
Equipment and components which are used in explosion-hazard areas and which have been inspected and
approved in accordance with international or European explosion-protection regulations may be used only under
the specied conditions under which they were approved.
!
CAUTION
The equipment or components may not be modified in any manner.
Do not drill holes in any housing, as t his will invalidate the explosion
protection.
Check that the materials used in the construction of this detector are compatible with the environment in which
they will operate, and that they will not be aected by any anticipated contaminants.
!
WARNING
The detector should not be used in an oxygen enriched atmosphere.
The purpose of the Dräger Flame Detector 1700 is to detect a ame or re. They may be installed in areas that
3
Safety Symbols used in this Manual
contain potentially explosive atmospheres thus it is vital for your safety and that of others that its functions are
understood and that every aspect of installation, commissioning and maintenance are carried out correctly.
This manual is intended to inform you of all aspects of the Dräger Flame Detector 1700. However, if you are in
any doubt about any part of these instructions, any function of the equipment, or any operating procedure, please
contact Dräger Safety. or your local distributor.
Attention
Information on power consumption and operating voltage of the detector can be found in the specications
section of this manual. This should be read and taken into consideration when specifying cable core sizes to be
used. In addition, to this local authority regulations should be considered before wiring the system and installation
should be completed by appropriately trained personnel.
During system tests or maintenance it is important that any control equipment is inhibited to avoid unwanted
actuation or alarms.
Draeger Safety UK Ltd.
4
Safety Symbols used in this Manual
Safety Symbols used in this Manual
While reading this Manual, you will come across a number of warnings concerning some of the risks and dangers
you may face while using the device. These warnings contain “signal” words that will alert you to the degree of
hazard you may encounter. These words, and the hazard they describe, are as follows:
!
DANGER
Indicates an imminently hazardous situation which,
if not avoided, will result in death or serious injury.
!
WARNING
Indicates a potentially hazardous situation which, if
not avoided, could result in death or serious injury.
!
CAUTION
Indicates a potentially hazardous situation which, if
not avoided, could result in physical injury.
!
NOTICE
Indicates a potentially hazardous situation which, if
not avoided, could result in damage to the product.
5
Intended Use
Intended Use
The Dräger Flame Detector 1700 is intended to monitor and trigger the necessary control actions upon the
detection of re or ame in a given environment, and is intended for use in areas which may contain a potentially
explosive atmospheres.
Understanding the System
The Dräger Flame Detector 1700 is an Ultraviolet detector (UV)
The detector is an Ex d (Explosion proof) certied devices suitable for both indoor and outdoor applications. The
detector is available in either an LM 25 grade aluminium or a 316 stainless steel housing.
Principle of operation
The Dräger Flame Detector 1700 model is a single spectrum optical detector. It is designed to sense a ame or
re and subsequently trigger a warning system or activate some kind of extinguishing system.
Status of the detector can be determined by a 0-20mA output (see ‘Current (Source) isolated signal Output’
section, page 16), relays, and also by an LED situated on the faceplate of the detector (see ‘LED status’, page
16).
The detector operates by monitoring an area for the presence of radiation. The Dräger Flame 1700 monitors the
ultraviolet spectrum.
Detection level
Detection of radiation in the UV channel will trigger an alarm.
Detection Wavelengths
The UV sensor uses wavelengths in the region of 0.185 to 0.26 microns. The sensor peak is at approximately 0.21
microns.
Optical ame detectors respond to radiation emitted by aming res. The graphical representation below
illustrates hydrocarbon re emissions. With reference to the UV detector mentioned before, the required
frequency is labelled below.
CO2
Q
n
WIR
NIR
UV
P
0
4.4P
Wavelength of interest are 0.21Pm (UV)
6
P
8
Intended Use
Optical Test
The detector employs test facilities to check window cleanliness and functionality of the electronics. This check
is automatic with the option for manual operation via a manual 24V input terminal. See Detector Maintenance
section.
!
NOTICE
The optical test r uns e very 3 0 minutes and t akes approximately 10
seconds during in which time flame detection is not functional.
The Dräger Flame Detector 1700 performs a single sub test on the UV sensor. The UV section currently consists
of a high voltage UV source.
The test sequence is as follows: The UV source is activated; it is not modulated, as the UV sensor does not respond to rate of change of incident
UV energy but on the absolute amount present. If the detector passes the UV test within 5 seconds the test is
considered a pass and the detector returns to its detection mode.
If the detector fails the UV test, this will be indicated by a yellow LED (see ‘LED Status’ section, page 16)
Field of View
The detectors have the following elds of view in the horizontal and vertical axis*.
Dräger Flame Detector 1700
@ 18m (60 feet) vertical 38°; horizontal 80°
@ 10m (30 feet) vertical 70°; horizontal 90°
*Tested with 0.1m2 (1ft2) Flame
1700 (UV) Vertical FOV
1700 (UV) Horizontal FOV
-90
0
-30
-15 20
15
15
-45
-60
0
-180
90
-105
-150
165
-180
5
-15
0
0
15
30
135
135
-165
-30
150
120
-135
-45
165
105
-120
-60
10
-165
75
5
-90
-150
60
-75
15
-135
45
10
-75
-120
30
-105 20
45
120
150
105
75
90
Horizontal FOV
60
Vertical FOV
7
Installation of the Dräger Flame Detector 1700
False Alarm Immunity
!
NOTICE
Extensive testing has shown that the detectors do not provide an
alarm or a warning as areaction to the radiation sources specified in
the table below.
Notes:
IAD = Immune at any distance
All sources are chopped at 0.1 and 20 Hz
Tests carried out at various distances (indicated where appropriate)
Immunity to False Alarm Faults
Radiation Source
8
Immunity Distance (m)
Sunlight
IAD
Indirect or reected sunlight
IAD
Vehicle Headlights (low beam) conforming to MS553023-1
IAD
Incandescent frosted glass light , 100W
IAD
Incandescent clear glass light, rough surface, 100W
IAD
Fluorescent light with white enamel reector, standard oce or shop, 40W (or two 20)
IAD
Bright coloured clothing, including red and safety orange
IAD
Red dome light conforming to M251073-1
IAD
Blue-green dome light conforming to M251073-1
IAD
Radiation heater, 1500W
IAD
Radiation heater, 1250W with fan
IAD
Lit cigar or cigarette
1.5m (5 Feet)
Match, wood, stick including are up
1.5m (5 Feet)
Welding
> 4m (13 Feet)
Angle grinding / metalwork
> 4m (13 Feet)
Installation of the Dräger Flame Detector 1700
Installation of the Dräger Flame Detector 1700
Mechanical Install
Positioning of detector
To enable optimum performance and minimise down time and false alarms care must be taken when positioning
the detector. The following are points to be considered:
• A clear view of the area to be protected.
• Mounting of detectors on vibration free structures to provide best performance.
• Adequate number of detectors to cover the area to be protected.
• Detectors positioned so that they operate within their recommended operating distance.
• Type of re hazard presented.
• Inuences that could absorb wavelengths i.e. certain gases.
• Angle at which detector is positioned – This should always be downwards and at a minimum of 10° - 20°.
In addition to the above, the following can aect the detector performance:
The Dräger Flame Detector 1700 is an ultraviolet ame detector, and can be operationally aected by outside
inuences. Oil, smoke, and solvent vapours in the atmosphere may cause attenuation; also Lightning, Arc
Welding, and X-rays may cause false alarms.
It is essential that the Dräger Flame Detector 1700 is situated in such a way that the above mentioned inuences
do not disturb the functionality and correct operation.
Detector mounting
The mounting bracket should be secured to a structure free from vibration, and capable of holding the detector
and bracket. It is essential that the points covered above are considered when mounting the detector.
Dimesions in Millimetres (mm)
9
Installation of the Dräger Flame Detector 1700
Electrical Install
Detector wiring
Ensure that any power is switched o before connecting any cabling to the ame detector. The connections are
made in the rear terminal compartment through suitably certied glands.
To access the terminal connections release the terminal cover locking screw using a 2 mm hexagon key and
unscrew the terminal compartment cover.
The UV detector requires 24 Volts DC nominal supply voltage, also available are an isolated 4-20mA output and
3 relays. Refer to pages 11-13 for the correct terminal connections.
When this equipment is installed within either:
NEC 500 Class 1 Div 1
NEC 505 Class 1 Zone 1
Certied areas then it must be installed using type MC-HL cable (Metal Clad for Hazardous Locations).
!
NOTICE
Wiring must be in accordance with local regulations. No more than
one conductor should be used in each terminal. Duplicate terminals
are supplied to allow ‘daisy chaining’ of connections if required.
Duplicate terminals are not supplied for 4-20mA connections, which
cannot be ‘daisy-chained’.
!
CAUTION
Before replacing the terminal compartment cover ensure the threads
are lightly lubricated using suitable non-setting silicone grease.
Hand-tighten the terminal cover then tighten the locking screw with a
2mm hexagon key (see Technical Specification’ section).
Finally the protective cover is tted over the housing, to do this:
1. Briey remove the detector from its mounting bracket by slackening the two M8 xing screws.
2. Fit the two sides of the cover around the detector itself before aligning together and tightening with the 4
securing screws.
3. Return the detector to its mounting bracket and secure into position by tightening the two M8 screws to the
specied torque (see ‘Materials’ section). ENSURE THAT THE DEVICE IS COVERING THE CORRECT
AREA
Unused cable entries must be tted with appropriate certied stopping plugs before commissioning the detector.
The detector is now ready for power on and set-up.
10
Installation of the Dräger Flame Detector 1700
Electrical Connections
Each detector has a built in terminal block of 37 terminals providing for a number of output connections;
• 4 terminals for 24v DC power
• 2 terminals for 4 – 20mA output
• 6 terminals for alarm relay
• 6 terminals for fault relay
• 6 terminals for spare relay
• 2 terminals for manual test activation
• 2 terminals for internal linking of cable screens (shields)
• 2 terminals for passive components
• 1 terminal for connection to the enclosure (housing)
A 4-20mA current loop is provided along with an alarm relay and fault relay. A two input manual test input is
provided which takes a 24V input (referenced to an external 0V, hence two inputs). This input allows the user to
manually activate an optical test. There is also a pair of terminals (35 & 37) into which is connected a user dened
passive component to allow for interfacing to a number of vendors re panels.
!
NOTICE
Where terminals 35 & 3 7 are not i nterfaced with a ny v endor
pannels, but t he alarm is required, it is necessary to place a
hard wired link between terminals 35 & 37.
Each terminal is capable of accepting a suitably crimped/ferruled 2.5mm2 core wire. The detector also has an
external earth (ground) connection capable of accepting 4mm2 wire.
Terminal Block Orientation (from rear of detector with cover removed)
11
Installation of the Dräger Flame Detector 1700
Terminal Block Orientation
29
15
28
1
12
37
14
Installation of the Dräger Flame Detector 1700
Terminal Connections
1
Cable Screen
2
Relay ( normally open contact)
3
Relay ( normally open contact)
4
Fault Relay ( normally closed contact)
5
Fault Relay ( normally closed contact)
6
Alarm Relay ( normally open contact)
7
Alarm Relay ( normally open contact)
8
+ 24 V
9
+ 24 V
10
0V
11
0V
12
4-20 mA (+)
13
4-20 mA (-)
14
Cable Screen
15
Manual Test input (connect 24 V to activate)
16
Manual Test input (connect 24 V to activate)
17
Relay ( common contact)
18
Relay ( common contact)
19
Fault Relay ( common contact)
20
Fault Relay ( common contact)
21
Alarm Relay ( common contact)
22
Alarm Relay ( common contact)
23
Not Used
24
Not Used
25
Not Used
26
Not Used
27
Not Used
28
Not Used
29
Relay ( normally closed contact)
30
Relay ( normally closed contact)
31
Fault Relay ( normally open contact)
32
Fault Relay ( normally open contact)
33
Alarm Relay ( normally closed contact)
34
Alarm Relay ( normally closed contact)
35
Series Passive Component
36
Connection to Enclosure
37
Series Passive Component (to alarm relay common contact)
13
Installation of the Dräger Flame Detector 1700
Example Wiring Layouts
The following descriptions give a brief overview to the example layouts illustrated on the following pages. These
layouts are solely to provide a brief indication of typical setup strategies available for the Dräger Flame Detector
1700. Choice of strategy is the sole responsibility of the user.
Diagram A
The wiring in this example shows direct connections to achieve isolated 4-20 mA (current source). This setup
provides a signal available for connection to an Analogue Control Card.
An additional connection can be made by implementing a switch between 24V supply and pin 15 creating an
optional Optics Check.
Diagram B
In similar fashion to ‘Diagram A’ the functionality here is also to provide a 4-20 mA output, however, this setup
utilises a 3-wire operation.
Notice by using this method pins 11 & 13 need to be linked together.
As before, a switch can be linked between 24V and pin 15, thus providing an Optics Check.
Diagram C
This arrangement shows the setup available for connections to a re panel. It should be noticed that a link is
required here between pins 7 & 31, but also a resistance is required between pins 20 & 22 and 35 & 37. (Please
bear reference to ‘Terminal Connections’ section, page 13)
Again, as before, an Optics Check switch can be added.
For relay operation the resistors R.Fault and R.Alarm are selected in order to give a particular current value for
the normal operation and alarm.
DIAGRAM A: Connection Diagram with isolated 4-20mA (current source)
Connections inside the Terminal
Compartment of the Flame Detector
Terminal
No.
Connections from
Flame Detector to
Analogue Control
Card & Power
Supply Unit
12 + 4-20 mA
13 - 4-20 mA
10 Common
8 +24 VDC
15 Manual Test Input
Optional Switch
for Optics Check
14
Installation of the Däger Flame Detector 1700
Installation of the Däger Flame Detector 1700
DIAGRAM B: Wiring for operation as 3-wire device with 4-20mA output
Connections inside the Terminal
Compartment of the Flame Detector
Terminal
No.
Connections from
Flame Detector to
Analogue Control
Card & Power
Supply Unit
12 + 4-20 mA
13 - 4-20 mA
11 Common
10 Common
8 +24 VDC
15 Manual Test Input
Optional Switch
for Optics Check
DIAGRAM C: Wiring with outputs to a Fire Panel
Connections inside the Terminal
Compartment of the Flame Detector
Terminal
No.
7 Alarm Relay NO
31 Fault Relay NO
20 Fault Relay
22 Alarm Relay
R.Fault
35 Series Passive Component
37 Series Passive Component
R.Alarm
Connections from
Flame Detector to
Fire Panel
6 Alarm NO
21 Alarm COM
10 Common
8 +24 VDC
15 Manual Test Input
Optional Switch
for Optics Check
15
Operation
Operation
Detector Start-up procedure
When the power is initially turned on there is a delay of approximately thirty seconds. The system performs an
internal test and system initialisation.
An optical and hardware check is performed within the testing. If the device has correct functionality and displays
a green LED, it is ready for re detection.
However, if there is a hardware or optical failure within the device the yellow LED will illuminate to indicate a
problem. This will stay illuminated until the problem has been addressed and remedied by the operator.
Detector Signals
The Flame detector generates a 0-20mA signal to indicate its status (see Maintenance section); this should be
checked during the installation of the detector.
Alternatively the status and operation of the device can be monitored by the colour of the LED illuminated.
Status Indicators
Each detector provides the following status indications:
1. Healthy, green steady
2. Fire, red steady.
3. Optical fault, system fault, yellow steady
The ‘Status LED’ table describes the visual indications provided by the status LED.
LED Status
System Status
LED Status
Power On / Running
Green LED indicates successfully running
System Fault / Failed optical check
Yellow LED indicates a system hardware fault or optical failure
Flame / Radiation Detected
Red LED indicates a hazard has been detected
Current (Source) isolated signal output
16
Current Output
Status of Dräger Flame Detector 1700
0 mA
Fault
1.9 mA ± 0.15 mA
Optical Fault
3.8 mA ± 0.23 mA
Normal
15.6 mA ± 0.40 mA
Warning
20.09 mA ± 0.45 mA
Fire
Visual Indicator
Maintenance
Maintenance
Detector Maintenance
Once installed there are no user serviceable parts within the detector. The only servicing requirements are to
ensure that the detector is fully functional (see section ‘Current (Source) isolated signal outputs) and to ensure
that the lenses are clean.
As mentioned earlier the terminal compartment cover and front cover threads must be lightly lubricated with nonsetting grease prior to re-assembly.
The detector outer cover (weather shield) is moulded polycarbonate/abs and is not antistatic. CLEAN ONLY
WITH A DAMP CLOTH.
When replacing the detector front cover assembly it is essential for the function of the detector that the
calibration bar in front of the lens is HORIZONTAL when the cover is in place (see diagram below). To do
this hand tighten the front cover and then back it o a maximum of half a turn until the two locking screws
are aligned with the slots in the front face of the detector housing. Tighten both locking screws to the
specied torque setting using a 2mm hexagon key (see ‘Materials’ for settings)
Correct Horizontal Test Bar Orientation
äger Flame
Dr
!
WARNING
The Draeger Flame Detector 1700 Range contains no user
serviceable parts. In the event of suspected failure, the suspect
unit should be returned to Draeger Safety UK Ltd
NO ATTEMPT SHOULD BE MADE TO DIS-ASSEMBLE THE UNITS
IN HAZARDOUS AREAS!
Maintenance Intervals
A function test of the detectors using a suitable Flame Simulator (See ‘Accessories’) should be carried out
regularly. Additionally a manual optical check of the detector may be carried out at anytime by connecting 24 Volts
to pin 15 (manual test input) of the terminal block. Periodic maintenance checks may be performed in accordance
with appropriate codes of practice or local regulations e.g. in Europe EN 60079-17 applies.
17
Specications
Specications
Mechanical specications
Cable Entries
The detector is capable of having either M20 x2 or ¾” NPT x2 cable entries in the housing (enclosure).
Electrical Specications
Operating voltage:
18 – 32 Volts DC (24 Volts nominal)
Current consumption:
160mA quiescent current at 24 volts (maximum 180mA)
Power on Delay:
The detector has a power on delay of no more than 30 seconds. During in
which system testing and system initialisation occurs.
Alarm Reset:
Where alarm relays are latched detector reset is done by temporary discon
nection of the power supply.
Built in relays
The detectors have 3 built in relays
1. Alarm SPDT/NO (reset according to latching option taken). This relay is not normally energised.
2. Fault SPDT/NC (reset automatically when fault condition cancelled). This relay is energised without fault
conditions.
3. Accessory SPDT/NC.
Internal Built in Lighting Surge Protection
The detector has built in lightning surge protection as per BS EN61000-4-5.
18
Approvals
Materials
Enclosure:
Enclosure Finish:
Aluminium Alloy grade LM25 or Stainless Steel grade 316
Chromate prime and Polyester powder coat
Window:
Window Cement:
Sapphire
Silicone Rubber
Seals:
Fasteners:
Bracket:
Labels:
EPDM
Stainless Steel grade A4
Stainless Steel grade 316
Aluminium Alloy
Cover:
Polycarbonate/ABS
Weight:
Aluminium Alloy housing less than 3.5 kg (7.7 lbs)
Stainless Steel housing less than 5 kg (11 lbs)
Ingress Protection:
IP 67, NEMA 4X (with o-rings tted)
Recommended Torque settings
Housing screws:
Back Cover locking screw:
Front Cover locking screw:
M8, Hexagon head, recommended torque 15Nm
M4, Socket Set Screw, recommended torque setting 0.8Nm
M4, Socket Set Screw, recommended torque setting 0.8Nm
Temperature and Humidity Range
The operating range of the detector is -40°C to +60°C.
0 – 99% relative humidity without condensation, valid between 91.5 - 105.5kPA.
19
Approvals
Approvals
Hazardous Area Certication
ATEX
Certicate No: ITS04ATEX11807
II 2 G EEx d IIC
T6 Tamb -50°C to +60°C
T5 Tamb -50°C to +70°C
IECEx
Certicate No: ITS 04.0003
II 2 G EEx d IIC
T6 Tamb -50°C to +60°C
T5 Tamb -50°C to +70°C
FM
Class: 3260 Approval Standard Flame Radiation Detectors for Automatic Fire Alarm Signalling
Class: 3600 Electrical Equipment for Use in Hazardous (classied) Locations
Class I, Groups A, B, C, D
Class I, Zone 1, Groups IIA, IIB & IIC
Ex d II C
T6 Tamb -40°C to +60°C
T5 Tamb -40°C to +70°C
CSA
Certicate: 1708328
Class I, Groups A, B, C, D
T6 Tamb -50°C to +60°C
T5 Tamb -50°C to +70°C
Electromagnetic Compatibility
EN 61000-6-3:2001
EN 50130-4: 1995 + A1: 1998
Reliability
The detector is designed with a predicted Mean Time Between Failure (MTBF) rate in excess of 100,000 Hours.
The detector is designed so that all faults that could aect re detection should be revealed and indicated to the
operator within an adequate time.
Response Time
The detector has a congurable response time of up to 30 seconds.
Typical alarm times:
1 second
Operating Distance
The detector is designed to detect a 0.1 m2 (1 sq. foot) N-heptane re or Propane ame re at 18m (60 feet) and
to respond to it within 30 seconds. It is designed to detect a 5 inch (800 W) Propane ame at 1.44m (4 feet 9
inches) and to respond within 30 seconds.
20
Accessories
Accessories
Description
Part Number
Dräger Flame Detector FD10 Range Cover
2350448
Dräger Flame Detector Fs10 Range Flame Simulator
2307023
Dräger Flame Detector FD10 Range Mounting Bracket
2350447
Description
Housing
Cable Entry
Part Number
Dräger Flame Detector 1700 (Latching)
AL
M20
2350423
Dräger Flame Detector 1700 (Latching)
SS
M20
2350426
Dräger Flame Detector 1700 (Latching)
AL
3/4 NPT
2350440
Dräger Flame Detector 1700 (Latching)
SS
3/4 NPT
2350443
Dräger Flame Detector 1700 (non-Latching)
AL
M20
2307010
Dräger Flame Detector 1700 (non-Latching)
SS
M20
2307016
Dräger Flame Detector 1700 (non-Latching)
AL
3/4 NPT
2307012
Dräger Flame Detector 1700 (non-Latching)
SS
3/4 NPT
2307018
21
Supplier’s Declaration of Conformity
Supplier’s Declaration of Conformity
CERTIFICATE OF CONFORMITY
FLAME DETECTOR TYPE FD10
Customer:
Customer O/no.:
Draeger Ref. No.:
Dated:
All the supplies detailed below, unless otherwise stated, conform to Draeger Safety UK Ltd's specification for the
products, and have been manufactured in accordance with the procedures specified in our Quality Manual.
H
All FD10 flame detectors detailed below carrying the F mark conform to the specifications laid down in their
certification to one or more of the Harmonised European Standards:
EN 50014 : 1997 + A1 & A2
EN 50018 : 2000 + A1
in accordance with the Council Directive of the European Communities 94/9/EC (ATEX).
All FD10 flame detectors detailed below carrying the CE mark, unless otherwise stated, conform to the appropriate
specifications laid down in the:
Electromagnetic Compatibility Generic Emission Standard
-EN 61000-6-3:2001
&
Electromagnetic Compatibility product family standard:
Immunity requirements for the components of fire, intruder and social alarm systems - EN 50130-4:1995 + A1
and, when installed and operated in accordance with the published instructions, conform to the protection
requirements of the Electromagnetic Compatibility Directive 89/336/EEC.
Qty.:
Description:
FD10 Flame Detector
Serial Nos.
For and on behalf of Draeger Safety UK Ltd.
K. J. Chitty -
Logistics Manager,
Draeger Safety UK, Plymouth
Draeger Safety UK Ltd
Drakes Court, Eagle Road.
Langage Business Park.
Plymouth UK
PL7 5JY.
Phone: +44 (0) 1752 292 700
Fax: +44 (0) 1752 290 061
DFO 223 issue 1.1 14/04/08
22
Draeger Safety UK Ltd
Ullswater Close,
Blyth Riverside Business Park
Blyth, Northumberland
NE24 4RG, United Kingdom
Tel: +44 (0)1670 352 891
Fax: +44 (0)1670 540 033
www.draeger.com
Distributed in the US by:
Draeger Safety, Inc
101 Technology Drive
Pittsburgh, PA 15275
USA
Tel: +1 412 787 83 83
Fax: +1 412 787 22 07
Telex: 0230866704
2309801_02_2008_en
© Draeger Safety UK Ltd
2nd Edition - February 2008
Subject to alteration