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BSI PD CLC/TS 50131-2-11:2017:1969 Edition

BSI PD CLC/TS 50131-2-11:2017:1969 Edition

$189.07

PD CLC/TS 50131-2-11 Alarm systems – Intrusion and hold-up systems – Part 2-11: Intrusion detectors – ALDDR

Published By Publication Date Number of Pages
BSI 1969 46
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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.

PDF Catalog

PDF Pages PDF Title
8 1 Scope
2 Normative references
3 Terms, definitions and abbreviations
3.1 Terms and definitions
9 3.2 Abbreviations
4 Functional requirements
4.1 Event processing
11 4.2 Detection
4.2.1 Detection performance
4.2.2 Target object diameters
4.2.3 Detection of mirror
4.2.4 Indication of detection
4.2.5 Significant reduction of range
4.2.6 Masking
12 4.3 Operational requirements
4.3.1 Time interval between intrusion signals or messages
4.3.2 Switch on delay
4.3.3 Self-tests
4.4 Immunity to incorrect operation
4.4.1 General
4.4.2 Immunity to ambient visible and near infrared radiation
4.4.3 Immunity to ALDDR´s of the same type
13 4.4.4 Immunity to small fast moving objects
4.5 Tamper security
4.5.1 General
4.5.2 Resistance to and detection of unauthorized access to components and means of adjustment
4.5.3 Detection of removal from the mounting surface
4.5.4 Resistance to magnetic field interference
4.5.5 Resistance to laser radiation from external sources
14 4.5.6 Electrical requirements
4.5.7 ALDDR current consumption
4.5.8 Slow input voltage change and voltage range limits
4.5.9 Input voltage ripple
4.5.10 Input voltage step change
4.6 Environmental classification and conditions
4.6.1 Environmental classification
4.6.2 Immunity to environmental conditions
15 5 Marking, identification and documentation
5.1 Marking and/or identification
5.2 Documentation
6 Testing
16 6.1 General test conditions
6.1.1 Standard conditions for testing
6.1.2 General detection testing environment and procedures
6.1.3 Testing environment
6.1.4 Testing procedures
6.2 Basic detection test
6.2.1 General
6.2.2 Basic detection target (BDT)
17 6.2.3 Basic test of detection capability
6.3 Performance testing
6.3.1 Velocity test method
6.3.2 Walk test method
6.3.2.1 General
18 6.3.2.2 General walk test method
6.3.2.3 Standard walk test target
6.3.2.4 Verification of detection performance
6.3.2.5 Detection across and within the detection boundary
19 6.3.3 Non-Detection outside the boundary
6.3.4 Detection of mirror
6.4 ALDDR Switch-on behaviour
20 6.5 Self-tests
6.6 Immunity to incorrect operation
6.6.1 Immunity to ambient visible and near infrared radiation
21 6.6.2 Immunity to ALDDR´s of the same type
6.6.3 Immunity to small fast moving objects
6.7 Tamper security
6.7.1 General
6.7.2 Resistance to and detection of unauthorized access to the inside of the ALDDR through covers and existing holes
6.7.3 Detection of removal from the mounting surface
6.7.4 Resistance to or detection of re-orientation of adjustable mountings
22 6.7.5 Resistance to magnetic field interference
6.7.6 Resistance to laser radiation from external sources
6.7.7 Detection of detector masking
23 6.7.8 Immunity to False Masking Signals
6.8 Electrical tests
6.8.1 General
6.8.2 Current consumption
6.8.3 Slow input voltage change and input voltage range limits
6.8.4 Input voltage ripple
24 6.8.5 Input voltage step change
6.8.6 Total loss of power supply
6.9 Environmental classification and conditions
25 6.10 Marking, identification and documentation
6.10.1 Marking and/or identification
6.10.2 Documentation
26 Annex A (informative)Free fall of mechanical cylinder object for interruption time testing
28 Annex B (informative)Immunity to visible and near infrared radiation
29 Annex C (normative)Dimensions and requirements of the standardized interference test magnet
33 Annex D (informative)General Testing Matrix
35 Annex E (informative)Example list of small tools
36 Annex F (informative)Equipment for walk test velocity control
F.1 General
F.2 Moving light source guiding system
F.3 Metronome
37 Annex G (informative)Walk Test Diagrams
41 Annex H (informative)Definition of the diffuse reflection material
42 Annex I (normative)List of masking materials
43 Annex J (informative)Definition of object against false detection

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