ISO 7240-27:2009

INTERNATIONAL ISO
STANDARD 7240-27
First edition
2009-04-01


Fire detection and alarm systems —
Part 27:
Point-type fire detectors using a
scattered-light, transmitted-light or
ionization smoke sensor, an
electrochemical-cell carbon-monoxide
sensor and a heat sensor
Systèmes de détection et d'alarme d'incendie —
Partie 27: Détecteurs d'incendie ponctuels utilisant un détecteur
de fumée basé sur le principe de la diffusion de la lumière, de la
transmission de la lumière ou de l'ionisation, un détecteur de monoxyde
de carbone à cellule électrochimique et un détecteur de chaleur




Reference number
ISO 7240-27:2009(E)
©
ISO 2009

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ISO 7240-27:2009(E)
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ISO 7240-27:2009(E)
Contents Page
Foreword. v
Introduction . vii
1 Scope . 1
2 Normative references . 1
3 Definitions . 2
4 General requirements. 2
4.1 Compliance. 2
4.2 Individual alarm indication . 2
4.3 Connection of ancillary devices. 3
4.4 Monitoring of detachable detectors. 3
4.5 Manufacturer's adjustments. 3
4.6 On-site adjustment of response behaviour . 3
4.7 Protection against the ingress of foreign bodies. 3
4.8 Rate-sensitive CO response behaviour. 3
4.9 Smoke response to slowly developing fires. 4
4.10 Marking . 4
4.11 Data . 5
4.12 Requirements for software controlled detectors . 5
5 Tests. 6
5.1 General. 6
5.2 Repeatability of smoke response. 11
5.3 Repeatability of CO response. 11
5.4 Directional dependence of smoke response . 11
5.5 Directional dependence of CO response . 12
5.6 Directional dependence of heat response (optional function). 12
5.7 Lower limit of heat response (optional function) . 13
5.8 Reproducibility of smoke response. 13
5.9 Reproducibility of CO response. 14
5.10 Reproducibility of heat response (optional function). 14
5.11 Exposure to chemical agents at environmental concentrations . 15
5.12 Long-term stability of CO response. 16
5.13 Saturation . 16
5.14 Exposure to chemical agents associated with a fire . 17
5.15 Variation in supply parameters . 18
5.16 Air movement . 19
5.17 Dazzling . 20
5.18 Dry heat (operational). 20
5.19 Cold (operational), smoke. 21
5.20 Cold (operational), CO. 23
5.21 Damp heat cyclic (operational). 24
5.22 Damp heat, steady state (endurance). 25
5.23 Low humidity, steady state (endurance) .26
5.24 Sulfur dioxide SO corrosion (endurance). 27
2
5.25 Shock (operational) . 28
5.26 Impact (operational). 29
5.27 Vibration, sinusoidal (operational). 30
5.28 Vibration, sinusoidal (endurance). 32
5.29 Electromagnetic compatibility (EMC) immunity tests (operational). 33
5.30 Fire sensitivity. 34
6 Test report . 36
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ISO 7240-27:2009(E)
Annex A (normative) Gas test chamber for response threshold value and cross sensitivity
measurements. 37
Annex B (informative) Construction of the heat tunnel. 38
Annex C (normative) Apparatus for impact test. 41
Annex D (normative) Fire test room . 43
Annex E (normative) Smouldering (pyrolysis) wood fire (TF2) . 45
Annex F (normative) Glowing, smouldering cotton fire (TF3) . 48
Annex G (normative) Open plastics (polyurethane) fire (TF4). 51
Annex H (normative) Liquid (heptane) fire (TF5). 53
Annex I (normative) Low-temperature, black-smoke (decalin) liquid fire (TF8). 55
Annex J (informative) Information concerning the construction of the gas test chamber. 57

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ISO 7240-27:2009(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies
(ISO member bodies). The work of preparing International Standards is normally carried out through ISO
technical committees. Each member body interested in a subject for which a technical committee has been
established has the right to be represented on that committee. International organizations, governmental and
non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the
International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO 7240-27 was prepared by Technical Committee ISO/TC 21, Equipment for fire protection and fire fighting,
Subcommittee SC 3, Fire detection and alarm systems.
ISO 7240 consists of the following parts, under the general title Fire detection and alarm systems:
⎯ Part 1: General and definitions
⎯ Part 2: Control and indicating equipment
⎯ Part 4: Power supply equipment
⎯ Part 5: Point-type heat detectors
⎯ Part 6: Carbon monoxide fire detectors using electro-chemical cells
⎯ Part 7: Point-type smoke detectors using scattered light, transmitted light or ionization
⎯ Part 8: Carbon monoxide fire detectors using an electro-chemical cell in combination with a heat sensor
⎯ Part 9: Test fires for fire detectors (Technical Specification)
⎯ Part 10: Point-type flame detectors
⎯ Part 11: Manual call points
⎯ Part 12: Line type smoke detectors using a transmitted optical beam
⎯ Part 13: Compatibility assessment of system components
⎯ Part 14: Guidelines for drafting codes of practice for design, installation and use of fire detection and fire
alarm systems in and around buildings (Technical Report)
⎯ Part 15: Point type fire detectors using scattered light, transmitted light or ionization sensors in
combination with a heat sensor
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ISO 7240-27:2009(E)
⎯ Part 16: Sound system control and indicating equipment
⎯ Part 19: Design, installation, commissioning and service of sound systems for emergency purposes
⎯ Part 21: Routing equipment
⎯ Part 22: Smoke-detection equipment for ducts
⎯ Part 27: Point-type fire detectors using a scattered-light, transmitted-light or ionization smoke sensor, an
electrochemical-cell carbon-monoxide sensor and a heat sensor
⎯ Part 28: Fire protection control equipment
The following parts are under development:
⎯ Part 17, dealing with short-circuit isolators;
⎯ Part 18, dealing with input/output devices;
⎯ Part 20, dealing with aspirating smoke detectors;
⎯ Part 24, dealing with sound-system loudspeakers;
⎯ Part 25, dealing with components using radio links;
⎯ Part 26, dealing with oil mist detectors.

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ISO 7240-27:2009(E)
Introduction
A fire detection and fire alarm system is required to function satisfactorily not only in the event of fire, but also
during and after exposure to conditions it can likely meet in practice, such as corrosion, vibration, direct impact,
indirect shock and electromagnetic interference. Some tests specified are intended to assess the performance
of fire detectors under such conditions.
The performance of fire detectors is assessed from results obtained in specific tests; this part of ISO 7240 is
not intended to place any other restrictions on the design and construction of such detectors.
Smoke detectors using ionization or optical sensors, and complying with ISO 7240-7, are well established for
the protection of life and property. Even so, they can respond to stimuli other than smoke and in some
circumstances can be prone to false alarms. False alarm rates are usually minimized by careful application,
giving some limitations in use, and occasionally with a reduction in protection provided.
It is generally accepted that fire detectors using carbon monoxide (CO) sensors alone, while suitable for the
detection of smouldering fires involving carbonaceous fuels, can be relatively insensitive to free-burning fires
supported by a plentiful supply of oxygen. This limitation can be largely overcome by the inclusion of a heat
sensor whose output is combined in some way with that of the CO sensor. Performance requirements for CO
fire detectors and for CO and heat detectors can be found in ISO 7240-6 and ISO 7240-8, respectively.
Although the CO-detector — heat-detector combination is capable of responding to free-burning fires, it can
still be relatively insensitive to low-temperature fires that produce large amounts of visible smoke but low
concentrations of CO and little heat. This limitation prevents the CO and heat detector from being a true
replacement for a smoke detector in life-safety applications.
Many false-alarm sources that affect smoke detectors do not produce CO. It is possible, therefore, that by
adding a CO sensor to a smoke detector, and combining its output in some way with that of the smoke sensor,
the incidence of false alarms can be reduced. This reduction can be achieved while simultaneously providing
the ability to respond to a broader range of fire types than is possible with either a smoke or CO detector
alone.
It can be possible to improve the performance even further by adding a heat sensor to assist in the response
to clean-burning, high-energy fires. This improvement is seen as secondary to the overall performance and for
this reason the heat sensor is treated as optional for compliance with this part of ISO 7240.

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INTERNATIONAL STANDARD ISO 7240-27:2009(E)

Fire detection and alarm systems —
Part 27:
Point-type fire detectors using a scattered-light, transmitted-
light or ionization smoke sensor, an electrochemical-cell
carbon-monoxide sensor and a heat sensor
1 Scope
This part of ISO 7240 specifies requirements, test methods and performance criteria for multi-sensor
point-type fire detectors that incorporate an optical or ionization smoke sensor, an electro-chemical cell for
sensing carbon monoxide (CO) and, optionally, one or more heat sensors, for use in fire detection and alarm
systems installed in buildings (see ISO 7240-1).
For the testing of other types of fire detectors using smoke, CO and, optionally, heat sensors working on
different principles, this part of ISO 7240 can be used only for guidance. Fire detectors using smoke, CO and,
optionally, heat sensors which have special characteristics and which have been developed for specific risks
are not covered by this part of ISO 7240.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO 209-1, Wrought aluminium and aluminium alloys — Chemical composition and forms of products —
Part 1: Chemical composition
ISO 7240-1, Fire detection and alarm systems — Part 1: General and definitions
ISO 7240-5:2003, Fire detection and alarm systems — Part 5: Point-type heat detectors
ISO 7240-6, Fire detection and alarm systems — Part 6: Carbon monoxide fire detectors using
electro-chemical cells
ISO 7240-7:2003, Fire detection and alarm systems — Part 7: Point-type smoke detectors using scattered
light, transmitted light or ionization
ISO 7240-8, Fire detection and alarm systems — Part 8: Carbon monoxide fire detectors using an electro-
chemical cell in combination with a heat sensor
IEC 60068-1, Environmental testing — Part 1: General and guidance
IEC 60068-2-1, Environmental testing — Part 2-1: Tests — Test A: Cold
IEC 60068-2-2, Environmental testing — Part 2-2: Tests — Test B: Dry heat
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ISO 7240-27:2009(E)
IEC 60068-2-6, Environmental testing — Part 2-6: Tests — Test Fc: Vibration (sinusoidal)
IEC 60068-2-27, Environmental testing — Part 2-27: Tests — Test Ea and guidance: Shock
IEC 60068-2-30, Environmental testing — Part 2-30: Tests — Test Db: Damp heat, cyclic (12 h + 12 h cycle)
IEC 60068-2-42, Environmental testing — Part 2-42: Tests — Test Kc: Sulphur dioxide test for contacts and
connections
IEC 60068-2-78, Environmental Testing — Part 2-78: Tests — Test Cab: Damp heat, steady state
EN 50130-4:1995 (as amended), Alarm Systems — Part 4: Electromagnetic compatibility — Product family
standard: Immunity requirements for components of fire, intruder and social alarm systems
3 Definitions
For the purposes of this document, the terms, definitions and symbols given in ISO 7240-1 and the following
apply.
3.1
response threshold value
magnitude of the reference parameter at which the detector enters an alarm state when subjected to changes
in the smoke or carbon monoxide concentration or temperature, as described in 5.1.5, 5.1.6 or 5.1.7 (as
applicable)
EXAMPLES Smoke response threshold value, CO response threshold value.
NOTE The response threshold value may depend on signal processing in the detector and in the control and
indicating equipment.
3.2
sensing assembly
those parts of the detector that are required in order to produce an electrical change in response to changes in
the concentration of one of the sensed inputs
EXAMPLES Smoke sensing assembly, CO sensing assembly.
4 General requirements
4.1 Compliance
In order to comply with this part of ISO 7240 the detector shall meet the requirements of Clause 4, which shall
be verified by visual inspection or engineering assessment, shall be tested as described in Clause 5 and shall
meet the requirements of the tests.
4.2 Individual alarm indication
Each detector shall be provided with an integral red visual indicator, by which the individual detector that
released an alarm can be identified, until the alarm condition is reset. Where other conditions of the detector
can be visually indicated, these shall be clearly distinguishable from the alarm indication, except when the
detector is switched into a service mode. For detachable detectors, the indicator may be integral with the base
or the detector head.
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ISO 7240-27:2009(E)
The visual indicator shall be visible from a distance of 6 m in an ambient light intensity of up to 500 lx and at
an angle of up to
⎯ 5° from the axis of the detector in any direction, and
⎯ 45° from the axis of the detector in at least one direction.
4.3 Connection of ancillary devices
The detector may provide for connections to ancillary devices (e.g. remote indicators, control relays, etc.), but
open- or short-circuit failures of these connections shall not prevent the correct operation of the detector.
4.4 Monitoring of detachable detectors
For detachable detectors, a means shall be provided for a remote monitoring system (e.g. the control and
indicating equipment) to detect the removal of the head from the base, in order to give a fault signal.
4.5 Manufacturer's adjustments
It shall not be possible to change the manufacturer's settings except by special means (e.g. the use of a
special code or tool) or by breaking or removing a seal.
4.6 On-site adjustment of response behaviour
If there is provision for on-site adjustment of the response behaviour of the detector, then
a) for all of the settings for which the manufacturer claims compliance with this part of ISO 7240, the
detector shall comply with the requirements of this part of ISO 7240 and access to the adjustment means
shall be possible only by the use of a code or special tool or by removing the detector from its base or
mounting;
b) any setting(s) for which the manufacturer does not claim compliance with this part of ISO 7240 shall be
accessible only by the use of a code or special tool, and it shall be clearly marked on the detector or in
the associated data that if these setting(s) are used, the detector does not comply with this part of
ISO 7240.
These adjustments may be carried out on the detector or on the control and indicating equipment.
4.7 Protection against the ingress of foreign bodies
The detector shall be so designed that a sphere of diameter (1,3 ± 0,05) mm cannot pass into the smoke
sensing chamber of the detector, where such an ingress can affect its sensitivity.
NOTE This requirement is intended to restrict the access of insects into the sensitive parts of the detector. It is known
that this requirement is not sufficient to prevent the access of all insects, however it is considered that extreme restrictions
on the size of access holes can introduce the danger of clogging by dust, etc. It can, therefore, be necessary to take other
precautions against false alarms due to the entry of small insects.
4.8 Rate-sensitive CO response behaviour
The response threshold value of the detector can depend on the rate of change of CO concentration in the
vicinity of the detector. Such behaviour may be incorporated in the detector's design to improve the
discrimination between ambient CO concentrations and those generated by a fire. If such rate-sensitive
behaviour is included, then it shall not lead to a significant reduction in the detector's sensitivity to fires, nor
shall it lead to a significant increase in the probability of unwanted alarms.
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ISO 7240-27:2009(E)
Since it is not practical to conduct tests with all possible rates of increase in CO concentration, an assessment
of the rate sensitivity of the detector shall be made by analysis of the circuit/software and/or physical tests and
simulations.
The detector shall be deemed to meet the requirements of 4.8 if this assessment shows that
a) for any rate of increase in CO concentration less than 1 µl/l/min, the detector signals an alarm condition
before the CO concentration reaches 60 µl/l, and
b) the detector does not produce an alarm condition when subjected to a step change in CO concentration
of 10 µl/l, superimposed on a background concentration of between 0 µl/l and 5 µl/l.
4.9 Smoke response to slowly developing fires
The provision of “drift compensation” of the smoke sensor (e.g., to compensate for sensor drift due to the
build-up of dirt in the detector), shall not lead to a significant reduction in the detector's sensitivity to smoke
from slowly developing fires.
Since it is not practical to conduct tests with very slow increases in smoke density, an assessment of the
detector's response to slow increases in smoke density shall be made by analysis of the circuit/software,
and/or physical tests and simulations.
The detector shall be deemed to meet the requirements of 4.9 if this assessment shows that
a) for any rate of increase in smoke density, R, which is greater than A/4 per hour (where A is the detector's
initial uncompensated response threshold value), the time for the detector to give an alarm does not
exceed 1,6 × A/R by more than 100 s; and
b) the range of compensation is limited such that, throughout this range, the compensation does not cause
the response threshold value of the detector to exceed its initial value by a factor greater than 1,6.
4.10 Marking
Each detector shall be clearly marked with the following information:
a) number of this part of ISO 7240 (i.e. ISO 7240-27);
b) name or trademark of the manufacturer or supplier;
c) model designation (type or number);
d) wiring terminal designations;
e) some mark(s) or code(s) (e.g. serial number or batch code), by which the manufacturer can identify, at
least, the date or batch and place of manufacture, and the version number(s) of any software, contained
within the detector.
For detachable detectors, the detector head shall be marked with a), b), c), and e), and the base shall be
marked with, at least, c), i.e. its own model designation, and d).
Where any marking on the device uses symbols or abbreviations not in common use, then these should be
explained in the data supplied with the device.
The marking shall be visible during installation of the detector and shall be accessible during maintenance.
The markings shall not be placed on screws or other easily removable parts.
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ISO 7240-27:2009(E)
4.11 Data
Either detectors shall be supplied with sufficient technical, installation and maintenance data to enable their
correct installation and operation or, if all of these data are not supplied with each detector, reference to the
appropriate data sheet shall be given with each detector.
To enable correct operation of the detectors, these data should describe the requirements for the correct
processing of the signals from the detector. This may be in the form of a full technical specification of these
signals, a reference to the appropriate signalling protocol or a reference to suitable types of control and
indicating equipment, etc.
Installation and maintenance data shall include reference to an in situ test method to ensure that detectors
operate correctly when installed.
NOTE Additional information can be required by organizations certifying that detectors produced by a manufacturer
conform to the requirements of this part of ISO 7240.
4.12 Requirements for software controlled detectors
4.12.1 General
The requirements of 4.12.2, 4.12.3 and 4.12.4 shall apply to detectors that rely on software control in order to
fulfil the requirements of this part of ISO 7240.
4.12.2 Software documentation
4.12.2.1 The manufacturer shall submit documentation that gives an overview of the software design. This
documentation shall be in s
...