SIST-TS CLC/TS 50131-2-11:2017

SLOVENSKI STANDARD
SIST-TS CLC/TS 50131-2-11:2017
01-april-2017
Alarmni sistemi - Sistemi za javljanje vloma in ropa - 2-11. del: Javljalniki vloma -
ALDDR
Alarm systems - Intrusion and hold-up systems - Part 2-11: Intrusion detectors - ALDDR
Alarmanlagen - Einbruch- und Überfallmeldeanlagen - Teil 2-11: Einbruchmelder -
ALDDR
Systèmes d'alarme - Systèmes d'alarme contre l’intrusion et les hold-up - Partie 2-11:
Détecteurs à faisceaux laser - ALDDR
Ta slovenski standard je istoveten z: CLC/TS 50131-2-11:2017
ICS:
13.310 Varstvo pred kriminalom Protection against crime
13.320 Alarmni in opozorilni sistemi Alarm and warning systems
SIST-TS CLC/TS 50131-2-11:2017 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST-TS CLC/TS 50131-2-11:2017


TECHNICAL SPECIFICATION CLC/TS 50131-2-11

SPÉCIFICATION TECHNIQUE

TECHNISCHE SPEZIFIKATION
January 2017
ICS 13.320

English Version
Alarm systems - Intrusion and hold-up systems - Part 2-11:
Intrusion detectors - ALDDR
Systèmes d'alarme - Systèmes d'alarme contre l'intrusion et Alarmanlagen - Einbruch- und Überfallmeldeanlagen - Teil
les hold-up - Partie 2-11: Détecteurs à faisceaux laser - 2-11: Einbruchmelder - ALDDR
ALDDR
This Technical Specification was approved by CENELEC on 2016-11-28.

CENELEC members are required to announce the existence of this TS in the same way as for an EN and to make the TS available promptly
at national level in an appropriate form. It is permissible to keep conflicting national standards in force.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,
Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Turkey and the United Kingdom.


European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2017 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
 Ref. No. CLC/TS 50131-2-11:2017 E

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Contents Page
European foreword . 4
Introduction . 5
1 Scope . 6
2 Normative references . 6
3 Terms, definitions and abbreviations . 6
3.1 Terms and definitions . 6
3.2 Abbreviations . 7
4 Functional requirements . 7
4.1 Event processing . 7
4.2 Detection . 9
4.3 Operational requirements . 10
4.4 Immunity to incorrect operation . 10
4.5 Tamper security . 11
4.6 Environmental classification and conditions . 12
5 Marking, identification and documentation . 13
5.1 Marking and/or identification . 13
5.2 Documentation . 13
6 Testing . 13
6.1 General test conditions . 14
6.2 Basic detection test . 14
6.3 Performance testing . 15
6.4 ALDDR switch-on behaviour . 17
6.5 Self-tests . 18
6.6 Immunity to incorrect operation . 18
6.7 Tamper security . 19
6.8 Electrical tests . 21
6.9 Environmental classification and conditions . 22
6.10 Marking, identification and documentation . 23
Annex A (informative) Free fall of mechanical cylinder object for interruption time testing . 24
Annex B (informative) Immunity to visible and near infrared radiation . 26
Annex C (normative) Dimensions and requirements of the standardized interference test
magnet .
27
Annex D (informative) General testing matrix . 31
Annex E (informative) Example list of small tools . 33
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Annex F (informative) Equipment for walk test velocity control . 34
Annex G (informative) Walk test diagrams . 35
Annex H (informative) Definition of the diffuse reflection material . 39
Annex I (normative) List of masking materials . 40
Annex J (informative) Definition of object against false detection . 41
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European Foreword
This document (CLC/TS 50131-2-11:2017) has been prepared by the CLC/TC 79 “Alarm systems”.
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC shall not be held responsible for identifying any or all such patent rights.
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Introduction
This Technical Specification deals with Active Laser Detector Responsive to Diffuse Reflection (to be
referred to as ALDDR) installed inside buildings, used as part of intrusion alarm systems. It includes
four security grades and four environmental classes.
The purpose of an ALDDR is to detect an intruder inside a predefined area and to provide the
necessary range of signals or messages to be used by the rest of the intrusion alarm system.
The number and scope of these signals or messages will be more comprehensive for systems that are
specified at the higher grades.
This Technical Specification is only concerned with the requirements and tests for the ALDDR. Other
types of detectors are covered by other documents identified as in EN 50131-2 series.
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1 Scope
This Technical Specification is for ALDDR inside buildings and provides four security grades 1 to 4
(see EN 50131-1), specific or non-specific wire or wire-free ALDDR, and uses environmental classes I
to IV (see EN 50130-5).
An ALDDR fulfils all the requirements of the specified grade.
The ALDDR detects an intruder inside a predefined area.
This standard covers ALDDR using both pulsed and continuous wave laser operation technologies
according to LIDAR principle (Light Detection And Ranging). Other technologies i.e. doppler based
laser operation or use of additional retro-reflective objects or video based technologies are not
covered by this standard.
Functions additional to the mandatory functions specified in this standard may be included in the
ALDDR, providing they do not adversely influence the correct operation of the mandatory functions.
This Technical Specification does not apply to system interconnections.
This Technical Specification does not deal with requirements for compliance with regulatory directives,
such as EMC-directive, low-voltage directive, etc., except that it specifies the equipment operating
conditions for EMC- susceptibility testing as required by EN 50130-4.
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.
EN 50130-4, Alarm systems - Part 4: Electromagnetic compatibility - Product family standard:
Immunity requirements for components of fire, intruder, hold up, CCTV, access control and social
alarm systems
EN 50130-5, Alarm systems - Part 5: Environmental test methods
EN 50131-1, Alarm systems - Intrusion and hold-up systems - Part 1: System requirements
EN 50131-6, Alarm systems - Intrusion and hold-up systems - Part 6: Power supplies
EN 60529, Degrees of protection provided by enclosures (IP Code)(IEC 60529)
3 Terms, definitions and abbreviations
3.1 Terms and definitions
For the purposes of this Technical Specification, the terms and definitions given in EN 50131-1 and
the following apply.
3.1.1
Active Laser Detector Responsive to Diffuse Reflection
(ALDDR)
this type of detector consists of a device with one or more detection planes whose sensing function is
performed by opto-electronic emitting and receiving elements. The detector senses the diffuse
reflection of optical radiation by an object in detection zone(s) specified in two dimensions generated
within the device. One dimension is the distance to the device and the other dimension is the size.
Both the emitting and receiving elements are contained in one device
3.1.2
incorrect operation
physical condition that causes an inappropriate signal or message from an ALDDR
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3.1.3
basic detection test target
defined object to be detected inside a pre-defined area
3.1.4
detection test
operational test during which an ALDDR is interrupted by the detection test targets in a controlled
environment
3.1.5
detection test upright walking
test with a basic detection test target, which simulates a person going through in an upright position
3.1.6
detection test diving through
test with a basic detection test target simulating a person diving through
3.1.7
detection test reach through
test with a detection test target simulating a person’s hand reaching through
3.1.8
ALDDR response probability
probability (e.g. x/y*100 %) for response of the ALDDR on interruptions, where x is the number of
monitored responses and y is the total number of interruptions (stimulus) during the test
3.1.9
adaption
manual or automatic re-learning of the ALDDR to allow for added, moved or removed objects in the
field of view as a reference point to determine the alarm condition
3.2 Abbreviations
For the purposes of this Technical Specification, the abbreviations given in EN 50131-1 and the
following apply.
ALDDR Active Laser Detector Responsive to Diffuse
Reflection
EMC Electro Magnetic Compatibility
BDT Basic Detection Target
SA Supervised Area
I&HAS Intrusion and Hold Up Alarm System
SWT Standard Walking Target
4 Functional requirements
4.1 Event processing
ALDDR shall process the events shown in Table 1.
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Table 1 — Events to be processed by grade
Event Grade
 1 2 3 4
Intrusion detection M M M M
Tamper detection OP M M M
Masking Detection OP OP M M
Significant reduction of range OP OP OP M
Low supply voltage OP OP M M
Total loss of power supply OP M M M
Local self-test OP OP M M
Remote self-test OP OP OP M
M = mandatory
OP = optional
ALDDR shall generate signals or messages as shown in Table 2.
Table 2 — Generation of Signals or Messages
Signals or Messages
Event
Intrusion Tamper Fault
No event NP NP NP
Intrusion M NP NP
Tamper NP M NP
a
Masking M OP M
a
Significant reduction of range M OP M
Low supply voltage OP OP M
b
Total loss of power supply M OP OP
Local self-test pass NP NP NP
Local self-test fail NP NP M
Remote self-test pass M NP NP
Remote self-test fail NP NP M
M = mandatory
NP = not permitted
OP = optional
a
An independent signal or message may be provided instead.
b
Alternatively total loss of power supply shall be determined by loss of
communication with the detector.
NOTE 1 This permits two methods of signalling a masking or reduction of range
event: either by the intrusion signal and fault signal, or by a dedicated masking or
reduction of range signal or message. Use of the intrusion signal and fault signal is
preferable, as this requires fewer connections between CIE and detector. If multiple
events overlap there will be some signal combinations that may be ambiguous. To
overcome this ambiguity it is suggested that detectors should not signal ‘intrusion‘ and
‘fault‘ at the same time except to indicate masking. This implies that the detector
should prioritize signals, e.g. 1 Intrusion, 2 Fault, 3 Masking.
NOTE 2 When, in Table 1, an event may optionally generate signals or messages,
they shall be as shown in this table.
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4.2 Detection
4.2.1 Detection performance
The ALDDR shall detect an intruder or an object inside a pre-defined area which is present for the
duration time as described in Table 3.
Table 3 — Interruption time limits
Test Grade 1 Grade 2 Grade 3 Grade 4
a
interruption time 200 ms 150 ms 100 ms 25 ms
Response probability 90 % 90 % 100 % 100 %
a
To avoid false alarms ≤ 10ms interruption time should not cause an alarm signal.
For the walk test the performance criteria of Table 7 shall be met.
4.2.2 Target object diameters
The manufacturer should claim the type of surveillance. Depending on the type of surveillance a signal
shall be generated, if the area surveyed by the ALDDR has been penetrated as follows:
– dive-through surveillance; penetration of a circular area with a diameter = 300 mm;
– reach-through surveillance; penetration of a circular area with a diameter = 40 mm.
After definition of the type of surveillance the manufacturer claim the maximum distance for each
surveillance type.
4.2.3 Detection of mirror
The ALDDR shall generate an intrusion signal or message if a mirror is placed within the detection
plane.
4.2.4 Indication of detection
A visual or acoustical indicator shall be provided on the ALDDR to indicate during walk test to show
that an intrusion signal or message has been generated. This indicator shall only be enabled during
walk test.
At grade 1 this indicator shall be capable of being enabled and disabled either remotely at Access
Level 2 and/or locally after removal of a cover which provides tamper detection as described in Tables
1 and 4. At grades 2, 3 and 4 this indicator shall be capable of being enabled and disabled remotely at
Access Level 2.
4.2.5 Significant reduction of range
Grade 4 detectors shall detect significant reduction of range, for example, to deliberate or accidental
introduction of objects or obstructions into the coverage area.
Range reduction of more than 50 % and duration longer than 1 s shall generate a signal or message
within 180 s, according to the requirements of Table 1 and Table 2.
4.2.6 Masking
Means shall be provided to detect inhibition of the operation of the detector by masking according to
the requirements of Table 1.
In any I&HAS, any masked detectors should prevent setting of the system.
The maximum response time for the masking detection device shall be 180 s. Masking shall be
signalled according to the requirements of Table 2. The signals or messages shall remain for at least
as long as the masking condition is present. A masking signal or message shall not be reset while the
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masking condition is still present. Alternatively, the masking signal or message shall be generated
again within 180 s of being reset if the masking condition is still present.
NOTE From a system design point of view it would be preferable for masked detectors to automatically reset
after the masking condition is removed.
No masking signal or message shall be generated by normal human movement according to
Figure G.4.
For detectors where detection of masking may be remotely disabled the detection of masking shall
operate when the I&HAS is unset; it is not required to operate when the I&HAS is set.
4.3 Operational requirements
4.3.1 Time interval between intrusion signals or messages
ALDDR using wired interconnections shall be able to provide an intrusion signal or message not more
than 15 s after the end of the preceding intrusion signal or message.
ALDDR using wire-free interconnections shall be able to provide an intrusion signal or message after
the end of the preceding intrusion signal or message within the following times:
Grade 1 300 s
Grade 2 180 s
Grade 3 30 s
Grade 4 15 s
4.3.2 Switch on delay
The ALDDR shall meet all functional requirements within 180 s of the power supply reaching its
nominal voltage as specified by the manufacturer.
4.3.3 Self-tests
The ALDDR shall automatically test itself at least once every 24 h according to the requirements of
Tables 1 and 2. If normal operation of the ALDDR is inhibited during a local self-test, the ALDDR
inhibition time shall be limited to a maximum of 30 s in any period of 2 h.
An ALDDR shall process remote self-tests and generate signals or messages in accordance with
Tables 1 and 2 within 10 s of the remote self-test signal being received, and shall return to normal
operation within 30 s of the remote test signal being received.
4.4 Immunity to incorrect operation
4.4.1 General
The ALDDR shall be considered to have sufficient immunity to incorrect operation if the following
requirements have been met. No intrusion signal or message shall be generated during the tests.
4.4.2 Immunity to ambient visible and near infrared radiation
The ALDDR shall not generate any signal or message when a car headlamp is swept across the front
window or lens through a glass-pane.
4.4.3 Immunity to ALDDR´s of the same type
The ALDDR shall not generate any signal or message when a device of the same type (ALDDR) is in
the field of view of the ALDDR.
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4.4.4 Immunity to small fast moving objects
The ALDDR shall not generate any signal or message if small fast objects pass through the detection
plane(s).
4.5 Tamper security
4.5.1 General
Tamper security requirements for each grade of ALDDR are shown in Table 4.
Table 4 — Tamper security requirements
Requirement Grade 1 Grade 2 Grade 3 Grade 4
Resistance to access to the inside of the ALDDR Required Required Required Required
Not
Detection of access to the inside of the ALDDR Required Required Required
Required
Removal from the mounting surface for wired Not Not
Required Required
ALDDR required Required
Removal from the mounting surface for wire-free Not
Required Required Required
ALDDR required
Resistance to, or detection of, re-orientation - for
Not
ALDDR mounted on accessible brackets outside Required Required Required
required
the tamper supervised housing only
Applied torque  2 Nm 5 Nm 10 Nm
Not
Required Required Required
Magnetic field immunity
required
Magnet Type defined in Annex C
 Type 1 Type 2 Type 2
Resistance to laser radiation from external Not
Required Required Required
sources required
4.5.2 Resistance to and detection of unauthorized access to components and means of
adjustment
All components, means of adjustment, which, when interfered with, could adversely affect the
operation of the ALDDR, shall be located within the ALDDR housing. Such access shall require the
use of an appropriate tool and depending on the grade as specified in Table 4 shall generate a tamper
signal or message before access can be gained.
It shall not be possible to gain such access without generating a tamper signal, message or causing
visible damage.
4.5.3 Detection of removal from the mounting surface
A tamper signal or message shall be generated if the ALDDR is removed from its mounting surface, in
accordance with Table 4.
4.5.4 Resistance to magnetic field interference
It shall not be possible to inhibit any signals or messages with a magnet of grade dependence
according to Table 4. The magnet types shall be as described in Annex C.
4.5.5 Resistance to laser radiation from external sources
There shall be a fault signal or message if laser radiation of a device is recognized by the ALDDR
which inhibits the operation of the ALDDR.
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4.5.6 Electrical requirements
The grade dependencies appear in Table 5. These requirements do not apply to ALDDRs having Type
C power supplies. For these ALDDRs refer to EN 50131-6.
Table 5 — Electrical requirements
Test Grade 1 Grade 2 Grade 3 Grade 4
Current consumption Required Required Required Required
Input voltage range Required Required Required Required
Slow input voltage rise Not required Required Required Required
Input voltage ripple Not required Required Required Required
Input voltage step change Not required Required Required Required
4.5.7 ALDDR current consumption
The ALDDR’s quiescent and maximum current consumption shall not exceed the figures claimed by
the manufacturer at the nominal input voltage.
4.5.8 Slow input voltage change and voltage range limits
The ALDDR shall meet all functional requirements when the input voltage lies between ± 25 % of the
nominal value, or between the manufacturer’s stated values. When the supply voltage is raised slowly,
the ALDDR shall function normally at the specified range limits.
4.5.9 Input voltage ripple
The ALDDR shall meet all functional requirements during the sinusoidal variation of the input voltage
by ± 10 % of nominal, at a frequency of 100 Hz.
4.5.10 Input voltage step change
No signals or messages shall be generated by a step change in the input voltage between nominal
and maximum and between nominal and minimum.
4.6 Environmental classification and conditions
4.6.1 Environmental classification
The environmental classification is described in EN 50131-1 and shall be specified by the
manufacturer.
4.6.2 Immunity to environmental conditions
ALDDRs shall meet the requirements of the environmental tests described in Tables 8 and 9. These
tests shall be performed in accordance with EN 50130-5 and EN 50130-4.
Unless specified otherwise for operational tests, the ALDDR shall not generate unintentional intrusion,
tamper, fault or other signals or messages when subjected to the specified range of environmental
conditions.
Impact tests shall not be carried out on delicate ALDDR components such as LEDs.
For endurance tests, the ALDDR shall continue to meet the requirements of this specification after
being subjected to the specified range of environmental conditions.
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5 Marking, identification and documentation
5.1 Marking and/or identification
Marking and/or identification shall be applied to the product in accordance with the requirements of
EN 50131-1.
5.2 Documentation
The product shall be accompanied with clear and concise documentation conforming to the main
systems document EN 50131-1.The documentation shall additionally state:
a) a list of all options, functions, inputs, signals or messages, indications and their relevant
characteristics;
b) the manufacturer shall state the maximum operating distance, type of surveillance, opening angle
of transceiver, if applicable;
c) the effect of adjustable controls on the ALDDR’s performance or on the stated maximum
operating distance including at least the minimum and maximum settings;
d) any disallowed field adjustable control settings or combinations of these;
e) any specific settings needed to meet the requirements of this specification at the claimed grade;
f) where alignment adjustments are provided, these shall be labelled as to their function;
g) a warning to the user not to obscure partially or completely the ALDDR´s detection area;
h) the manufacturer’s quoted nominal operating voltage, and the maximum and quiescent current
consumption at that voltage;
i) the manufacturer shall provide in the installation and operation manual if adaption to the field of
view is supported, the involved risks and any means to enable, disable or perform adaption shall
be described.
6 Testing
The tests are intended to be primarily concerned with verifying the correct operation of the ALDDR to
the specification provided by the manufacturer. All the test parameters specified shall carry a general
tolerance of ± 10 % unless otherwise stated. A list of tests appears as a general test matrix in
Annex D.
All testing will be carried out in horizontal plane, this represents both, horizontal and vertical, detection
areas.
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6.1 General test conditions
6.1.1 Standard conditions for testing
The general atmospheric conditions in the measurement and tests laboratory shall follow the
requirements below unless stated otherwise:
Temperature 15 °C to 35 °C
Relative humidity 25 % RH to 75 % RH
Air pressure 86 kPa to 106 kPa
6.1.2 General detection testing environment and procedures
Manufacturer’s documented instructions regarding mounting and operation shall be read and applied
to all tests.
6.1.3 Testing environment
The detection tests require a suitable test range in order to test the manufacturers claimed range.
The default mounting shall be according the instructions specified by the manufacturer.
6.1.4 Testing procedures
The ALDDR shall be physically mounted as specified by the manufacturer. The orientation shall be as
specified by the manufacturer in the horizontal plane with an unobstructed view range. The ALDDR
shall be connected to the nominal supply voltage, and connected to equipment with a means of
monitoring intrusion signals or messages. The ALDDR shall be allowed to stabilize for 180 s. If
multiple application settings are available, any non-compliant settings shall be identified by the
manufacturer. All compliant settings shall be tested.
Table 6 — Summary of testing procedures
Test Basic Velocity Velocity Walk test Significant Masking
detection test test reduction detection
Application case
test of range
Diving Reach
through through
Diameter of 300 mm 300 mm 40 mm According NA NA
objects for SWT
movement definition
through and in (6.3.2.2)
the surveilled
plane
The ALDDR should be functional during and after the test mentioned in Tab
...