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GB 15407-2010: Specification of microwave interruption intrusion detector
Status: Valid GB 15407: Evolution and historical versions
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Specification of microwave interruption intrusion detector
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GB 15407-2010
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Performance criteria and test methods for microwave interruption intrusion detector
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Basic data | Standard ID | GB 15407-2010 (GB15407-2010) | | Description (Translated English) | Specification of microwave interruption intrusion detector | | Sector / Industry | National Standard | | Classification of Chinese Standard | A91 | | Classification of International Standard | 13.310 | | Word Count Estimation | 12,180 | | Date of Issue | 2010-11-10 | | Date of Implementation | 2011-09-01 | | Older Standard (superseded by this standard) | GB 15407-1994 | | Quoted Standard | GB 4208-2008; GB 10408.1-2000; GB/T 17626.2-2006; GB/T 17626.3-2006; GB/T 17626.4-2008; GB/T 17626.5-2008 | | Regulation (derived from) | Announcement of Newly Approved National Standards 2010 No. 8 (No. 163 overall) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This Chinese standard specifies the blocking microwave intrusion detector (hereinafter referred to as the detector) the technical requirements, test methods, test items, and inspection rules. This standard applies to indoor and outdoor shelter microwave intrusion detector. | GB 15407-2010: Specification of microwave interruption intrusion detector---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Specification of microwave interruption intrusion detector
ICS 13.310
A91
National Standards of People's Republic of China
Replacing GB 15407-1994
Microwave interruption intrusion detectors Technical requirements
Issued on. 2010-11-10
2011-09-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Foreword
4.1.2,4.1.3,4.1.4,4.3,4.5,4.7 and 4.9 of this standard are mandatory, the rest are recommended.
This standard is GB 15407-1994 "microwave interruption intrusion detector technical requirements and test methods" in the amended content
include.
--- Modify the environmental suitability requirements (1994 version 4.3, this version 4.5);
--- Revised test methods (Chapter 5, 1994 edition and this edition);
--- Deleted the original reference GB/T 6587.7 "electronic measuring instruments basic safety test" and GB/T 6833 "electronic measuring instruments
Electromagnetic compatibility test specification ";
--- Delete the original standard in Chapter 4, "technical requirements" and Chapter 5, "test" regarding AC power supply, and Chapter 6
"Table 1 pilot projects and order" in the relevant content;
--- Original standard reliability modifications, direct reference to GB 10408.1-2000 "intrusion detectors Part 1. General requirements"
6.4 requirements.
From the date of implementation of this standard, instead of GB 15407-1994.
The standard proposed by the People's Republic of China Ministry of Public Security.
This standard by the National Security Alarm System Standardization Technical Committee (SAC/TC100) centralized.
This standard was drafted. Chengdu OPTO Electronics Co., Ltd., Shenzhen City, the United States and Technology Co., Ltd., Guangzhou Net Security Technology Co.,
The company, the Ministry of Public Security Alarm System Quality Supervision and Testing Center, the Ministry of Public Security and Police Electronic Products Quality Inspection Center, all
National Security Alarm System Standardization Technical Committee.
The main drafters of this standard. Ni Jianzhong, HE Ming, with Jing Ke, Wu Yu Rui, Chen Yan, Han Feng, Huang Shijie, skin young forest.
This standard replaces the standards previously issued as follows.
--- GB 15407-1994.
Microwave interruption intrusion detectors Technical requirements
1 Scope
This standard specifies the microwave interruption intrusion detectors (hereinafter referred to as detectors) technical requirements, test methods, test items and test regulations
The like.
This standard applies to indoor and outdoor microwave interruption intrusion detectors.
2 Normative references
The following documents contain provisions which, through reference in this standard and become the standard terms. For dated references, subsequent
Amendments (not including errata content) or revisions do not apply to this standard, however, encourage the parties to the agreement are based on research
Whether the latest versions of these documents. For undated reference documents, the latest versions apply to this standard.
GB 4208-2008 housing protection (IP Code) (IEC 60529.2001, IDT)
GB 10408.1-2000 intrusion detectors - Part 1. General requirements (idtIEC 60839-2-2. 1987)
GB/T 17626.2-2006 Electromagnetic compatibility - Testing and measurement techniques - Electrostatic discharge immunity test (IEC 61000-4-2.2001,
IDT)
GB/T 17626.3-2006 Electromagnetic compatibility - Testing and measurement techniques RFEMS test (IEC 61000-4-3.
2002, IDT)
GB/T 17626.4-2008 Electromagnetic compatibility - Testing and measurement techniques - Electrical fast transient burst immunity test (IEC 61000-4-4.
2004, IDT)
GB/T 17626.5-2008 Electromagnetic compatibility - Testing and measurement techniques - Surge (impact) immunity test (IEC 61000-4-5.
2005, IDT)
3 Terms and Definitions
The following terms and definitions apply to this standard.
3.1
Microwave interruption intrusion detectors microwaveinterruptionintrusiondetector
The use of shielding the microwave beam to generate an alarm signal intrusion detectors. It consists of transmitting and receiving device component.
3.2
Reference target referencetarget
Reference target height (160cm ~ 180cm) ± 10cm between weighing between (60kg ~ 70kg) ± or between normal 10kg
Analog objects.
3.3
Detection range boundaries boundaryofdetectioncoverage
When the axis perpendicular to the reference target at different locations between the transmitter and the receiver, the transmitter and the receiver toward the antenna of the detector is formed
Set straight movement caused alarm status farthest point.
3.4
Detection range detectiondistance
Can effectively detect the maximum distance reference target transmitter and receiver.
3.5
Detection width detectionwidth
A vertical plane with the axis of the detection range on the border mutually aligned transmitter and receiver antenna formed by intersecting horizontal and vertical cross-section
width.
3.6
Detection area detectionrange
Detection range of regional borders.
4. Technical Requirements
4.1 appearance and mechanical structural requirements
4.1.1 Appearance
Intrusion detectors match the dimensions should be marked with the product specification size. Non-metallic surface of the shell should be no cracks, discoloration and permanent
Long stains, no obvious deformation and scratches. Metal shell surface coating can not reveal the underlying metal, no blistering, corrosion, nicks, burrs, pitting
Points, scratches, coating off and sand holes and the like. Control mechanism flexible, reliable and durable, signs should be clear.
4.1.2 The enclosure class
Enclosure protection rating shall comply with the relevant requirements of GB 4208-2008, in which the indoor detectors should reach IP41 level requirements, chamber
Overall detector should meet IP55 rating.
4.1.3 shell strength and pressure
Housing and the frame should have sufficient mechanical strength and rigidity. After the pressure test and its impact should not produce permanent deformation and the upper surface of the housing
damage.
4.1.4 terminal and lead fastness
4.1.4.1 terminals should prevent rotation and loosening measures. After tensile testing, lead and terminal should not fall off.
4.1.4.2 Lead should be able to withstand 20 times right angle bend without breaking, but also lead the DC power supply can withstand the pull of 14.7N
60s action without injury.
4.2 Performance Requirements
4.2.1 alignment indicator
To facilitate alignment of the axis of the transmitting antenna and receiving the axis, the detector should be aligned with adjustment means. The receiver should be the appropriate instructions.
4.2.2 Operating Frequency
Detector selected band is 9GHz ~ 25GHz.
4.2.3 Frequency Modulation
Microwave signal emitted by the transmitter detector should be modulated.
Modulation frequency is not lower than 400Hz.
4.2.4 Operating Voltage
Rated working voltage detector preferred DC 12V.
4.2.5 Power Scope
DC power supply, the detector varied within the range of 85% to 125% of the rated working voltage, no need to adjust the detector should be able to work properly
Make, and performance indicators should be consistent with the provisions of the product specification.
4.2.6 Overvoltage run
DC power supply, the detector when the supply voltage is 130% of the rated value, not more than 15 times per minute rate of 50 cycles alarm,
In each case complete alarm.
4.2.7 Power Consumption
Detectors and alarms alert state power should be expressed in the product specification.
4.3 Functional requirements
4.3.1 Alarm function
When the detection area through detectors should alarm signal at the reference target under specified conditions.
4.3.2 alarm time and recovery time
4.3.2.1 Alarm Time
After leaving the reference detector target detection area, the alarm signal duration less than 1s.
4.3.2.2 Recovery Time
After leaving the reference target detection area, the detector should be restored in the state of alert 7s.
4.3.3 Tamper protection
Intrusion detectors shall be tamper protection, intrusion detectors should alarm signal is output when opening the housing.
4.4 Detection range boundaries
4.4.1 Detection range
Detection range of the detector should be expressed in the product specification.
4.4.2 Detection width
Detector probe width should be expressed in the product specification.
4.4.3 detectable speed range
Indoor. 0.1m/s ~ 3m/s;
Outdoor. 0.1m/s ~ 10m/s.
4.5 Environmental suitability requirements
4.5.1 Environmental Adaptability detector grade requirements
Probe into grade Ⅰ, Ⅱ grade, Ⅲ grade according to the severity of their environment, in Table 1.
Table 1 detector temperature and humidity test level
Grade environment description
Grade Ⅰ
Suitable for indoor temperature changes little, can withstand the occasional lighter vibration environment, the ambient temperature range should be -10 ℃ ~
Between 40 ℃, the average relative humidity of about 75%
Ⅱ grade
Incomplete suitable detector is exposed to outdoor (open air or simple covered) or poor indoor environmental conditions occasions, can withstand sudden
However, fall or move frequently subjected to greater vibration and shock, the ambient temperature should range between -25 ℃ ~ 70 ℃, the average
Relative humidity of about 85% to 95%
Grade Ⅲ
Suitable detector completely exposed to the outdoors, the ambient temperature should range between -40 ℃ ~ 85 ℃, the average relative humidity
About 90% to 95%
4.5.2 Temperature and humidity detector suitability test requirements
Detector according to the corresponding level of environmental tests should be able to work in a specific environment of each test is complete, or after the test sensitivity
Detecting the amount of change in the distance, its value should not exceed ± 10%, and the case should not be deformed or damaged.
4.6 stability requirements
Intrusion detectors under normal climatic conditions, continuous 7d false alarms and leak alarm should not occur, or change the sensitivity of the detection range
Of no more than ± 10%.
4.7 Electromagnetic Compatibility
4.7.1 Electrical fast transient burst immunity test
The detector should be in accordance with GB/T 17626.4-2008 in Chapter 5, Table 1 Test Level 3, during the test should not produce false alarms
And leak alarm, flashing indicating device during the test is acceptable. After the test, according to the product standard test its functionality, it should be able to work properly.
4.7.2 Electrostatic discharge immunity test
The detector should be in accordance with GB/T 17626.2-2006 in Chapter 5, Table 1 Test Level 3, during the test should not produce false alarms
And leak alarm, flashing indicating device during the test is acceptable. After the test, according to the product standard test its functionality, it should be able to work properly.
4.7.3 RFEMS test
The detector should be in accordance with GB/T 17626.3-2006 in Chapter 5, Table 1 Test Level 3, during the test should not produce false alarms
And leak alarm, flashing indicating device during the test is acceptable, but there should not be any change in the output. After the test, according to the product standards inspection
Test its functionality, should be able to work properly.
4.7.4 Surge (impact) immunity test
The detector should be in accordance with GB/T 17626.5-2008 in Chapter 5, Table 1 Test Level 3, during the test should not produce false alarms
And leak alarm, flashing indicating device during the test is acceptable, but there should not be any change in the output. After the test, according to the product standards inspection
Test its functionality, should be able to work properly.
4.8 durability requirements
Intrusion detectors rated voltage and rated load currents were alert, alarm and reset cycle 6000, there should be no electrical or mechanical
Fault, nor should damage to the device or contact adhesion.
4.9 Security Requirements
4.9.1 Microwave safe dose
Transmitting antenna at the front of 5cm detectors, microwave radiation power density should be less than 5mW/cm2.
4.9.2 Abnormal operation protection
Detectors in the following non-normal operations, shall not be damaged, does not cause a fire or electric shock.
a) the power supply polarity is reversed;
b) output short circuit;
c) hand touch input;
d) between each wire connected wrong.
4.9.3 retardant
Intrusion detector housing a flame burning five times, each time burning 5s, then stop 5s, plastic shell continues to burn no more than 1min, and
You can not have a pillow melting plastic residue dripping.
4.10 reliability requirements
Intrusion detectors under normal operating conditions mean time between failures (MTBF) Under normal operating conditions at least 60000h.
5 Test methods
5.1 Appearance and structure of the performance test
5.1.1 Performance Test appearance
With a caliper measuring tool drawing control verify dimensions, appearance visual inspection, inspection and control mechanism by hand, shall meet the requirements of 4.1.1.
5.1.2 The enclosure class
Test method according to GB 4208-2008 test should meet the requirements of 4.1.2.
5.1.3 shell mechanical strength test
5.1.3.1 casing pressure test
For the low-pressure circuit of the test sample, the sample flat, horizontal surface in the center of the housing a discharge diameter of steel φ137mm
Hemisphere, spherical downward pressure of 49N, the role of (60 ± 2) s.
Visual inspection after the test, the test results should meet the requirements of 4.1.3.
5.1.3.2 shell impact strength test
The test samples were flat, with a diameter of φ50.8mm, quality 540g steel ball from a height of 0.5m vertical free fall rush
Click on the shell surface. Test results shall meet the requirements of 4.1.3.
5.1.4 Terminal and lead fastness test
5.1.4.1 Tensile test
After the test sample should be fixed in the normal position of the connection terminals 20 times and 20 times off test in the most easy to pull off in the direction Shi
Plus 24.5N tension, hold time of (60 ± 2) s, visual inspection after the test shall meet the requirements of 4.1.4.1.
5.1.4.2 Lead bending test
After sample appearance and electrical performance check at the end of the sprung mass of lead weights 1.5kg, and then pour the sample in the vertical plane
Oblique about 90 °, for about 2s ~ 3s, then return to the original position, it constitutes a bend. According to this method again bent in the opposite direction
Qu, a total of 20 tests, after completion of the test shall comply with the requirements of 4.1.4.2.
5.2 Performance Test
5.2.1 alignment indicator test
Detector transmitter and a receiver placed on the detection distance required targets by product base, turn the transmitter or receiver and check point
Check it at the indicator should meet the requirements of 4.2.1.
5.2.2 Operating Frequency Test
Wavelength meter or spectrum analyzer to the transmit frequency test shall meet the requirements of 4.2.2.
5.2.3 Test Frequency Modulation
When the transmitter working at the transmitter point modulation, frequency modulation scope measurements should meet the requirements of 4.2.3.
5.2.4 working voltage test
With an accuracy of 0.5 voltmeter to monitor the voltage should meet the requirements of 4.2.4.
5.2.5 Power range test
DC power supply, with a 0.5 grade accuracy, range 1.5 times the supply voltage of the DC voltage meter to monitor power supply voltages. Adjustable DC
Power supply voltage value, at 85% of rated, 100% and 125%, respectively, were tested to detect the distance. Each test period of not less than
15min, detection range detection should meet the requirements of 4.2.5.
5.2.6 Overvoltage test run
DC power supply, according to the requirements of 4.2.6, 5.2.5 through the sample tested at 130% of rated power supply voltage when the sample is tested
Alert, moving the reference target, so that the test sample into the alarm state, then released, then enter the state of alert, to complete a cycle. Per minute
Alarm clock rate of not more than 15 times, a total of 50 cycles, each should be able to complete the alarm.
5.2.7 check power consumption
With an accuracy of 0.5, range 1.5 times the rated current value of the monitor current consumption shall comply with the requirements of 4.2.7.
5.3 Function test
5.3.1 Test alarm function
Under normal ambient conditions, test site to install the detector, indoor reference target to 0.1m/s ~ 3m/s, outdoor to 0.1m/s ~
Speed of 10m/s through the detection area shall conform to the requirements of 4.3.1.
5.3.2 alarm time and recovery time
5.3.2.1 Alarm Time
Detector transmitter installation distance between the receiver and by product specifications prescribed detection range, mounting height according to product say
SHEET highly recommended, reference target at a speed of 0.75m/s from detection width, the close proximity vertical axis antenna hair formation.
When the detector generates an alarm signal, the reference target detection area to exit immediately, generating a timer measuring the time between the alarm signal disappears
Interval, the interval shall meet the requirements of 4.3.2.1. Figure 1 shows, in a uniform distribution of A, C, E three locations tested separately.
1 a schematic diagram of the test position
5.3.2.2 Recovery Time
After the alarm signal disappears, the reference target and through the detection region, the detector generates an alarm signal is again measured by a timer alarm elimination
Alarm signal is generated again lost to the minimum time interval, this interval should meet the requirements of 4.3.2.2. Figure 1 shows, in a uniform distribution
The A, C, E were tested three positions.
5.3.3 Tamper protection
Intrusion detectors shall be tamper protection, intrusion detectors should alarm signal is output when opening the housing.
5.4 detection range boundary test
5.4.1 test site
Detector test site requirements open flat, the length should be greater than 1.5 times the base index of products specified detection range of a width greater than most
Large probe 4 times the width. Detection area should not have metal objects, such as trees blocking 0.1m above the ground or into a piece of grass.
5.4.2 Detection distance test
Installation distance between the transmitter and the receiver. indoor detection range defined by product specification; outdoor product specification should be regulated
1.3 times the fixed detection distance. Installation height according to product instructions recommended height. Reference targets to 0.75m/s speed, vertical through
Too close, the axis formed by the antenna hair, the detector should generate an alarm signal.
5.4.3 Detection width test
Detection range Installation distance detector transmitter, a receiver between the technical specifications defined by product, installation height according to product
The recommended height of the specification, the reference target from the probe 2 times the width of the outside, at a speed of 0.75m/s, the vertical approaching closing, the axis of the antenna is formed of fat,
Detect the location of the alarm, and then in the same way measure the position of the axis on the other side of the alarm, the distance between the two positions should be less than the alarm point
1.5 Technical indicators specified detection width. Figure 1 shows a uniform distribution of A, B, C and so on no less than five positions
This was performed to test. The probe antenna polarization direction of the radiation along the axis of rotation 90 °, then the same as above requirements and test methods to detect wide
It should be less than 1.5 times the product specifications prescribed detection width.
5.4.4 Test can detect speed range
As shown in Figure 1, the uniform distribution of human objects A, B, C, etc. at least five positions, each position respectively 0.1m/s,
3m/s, the speed of 6m/s, 10m/s through a vertical closed, the axis formed by the antenna hair, the detector should generate an alarm signal. The pacing rate should be
Control ± 10%, moving targets when to start and stop should be feet together, walk test can not be repeated test within 15s. Table 2
The walk test speed requirements.
Table 2 walking speed test requirement
Test project in claim 1 2
Border crossing detection
Speed / (m/s)
Essential
0.75m/s
Essential
1m/s
Within the boundaries of motion detection
Speed / (m/s)
Essential
0.1m/s
Essential
0.3m/s
Fast crossing detection
Speed / (m/s)
Essential
3m/s
Essential
6m/s
Close detection/m
Speed / (m/s)
0.5m
0.1m/s
1m
0.5m/s
5.5 Environmental Adaptability Test
5.5.1 Test Requirements
When tested in accordance with the environmental requirements of Table Level 3, unless otherwise specified, the test sample should not add any protective packaging. In the test
When changing the temperature, heating and cooling rate should not exceed 1 ℃/min.
Table 3 Environmental test level test requirements
project
Grade Ⅰ Ⅱ Ⅲ grade level
Rating Rating test time test time test time Rating
Low Ab (-10 ± 3) ℃ 2h (-25 ± 3) ℃ 2h (-40 ± 3) ℃ 2h
High temperature Bb (40 ± 2) ℃ 2h (70 ± 2) ℃ 2h (85 ± 2) ℃ 2h
Ca constant heat
(40 ± 2) ℃
RH (93 2-3)%
48h
(40 ± 2) ℃
RH (93 2-3)%
48h
(40 ± 2) ℃
RH (93 2-3)%
48h
Low temperature storage (-15 ± 3) ℃ 16h (-30 ± 3) ℃ 16h (-45 ± 3) ℃ 16h
Vibration Fc
(10 ~ 55 ~ 10) Hz
(Sinusoidal vibration)
Amplitude 0.35mm
1oct/min
X, Y, Z directions
Each 30min
1.5h
(10 ~ 55 ~ 10) Hz
(Sinusoidal vibration)
Amplitude 0.75mm
2oct/min
X, Y, Z directions
Each 30min
1.5h
(10 ~ 55 ~ 10) Hz
(Sinusoidal vibration)
Amplitude 0.75mm
2oct/min
X, Y, Z directions
Each 30min
1.5h
Attack
15g
11ms
X, Y, Z
Three times each
30g
18ms
X, Y, Z
Three times each
30g
18ms
X, Y, Z
Three times each
5.5.2 Low Temperature
5.5.2.1 After detecting the test sample is placed 1h under normal conditions, the measurement sensitivity or detection range.
5.5.2.2 The test samples were placed in low-temperature chamber, so that the inside temperature falls values specified in Table 3, maintained at this temperature for 2h.
5.5.2.3 Remove the test sample, wipe the condensation of water on the surface, under normal environmental conditions on the transverse cutting walk test, measurement by
Sensitivity or detection range of the test sample. The test results should meet the requirements of 4.5.2.
5.5.3 High-temperature test
5.5.3.1 After detecting a test sample placed 1h under normal conditions, the measurement sensitivity or detection range.
5.5.3.2 The test sample is placed in a high temperature inside the power to keep the temperature rise to the value specified in Table 3, and maintained at that temperature for 2h.
Remove the test sample, and the detector transverse cut walk test. Test results shall meet the requirements of 4.5.2.
5.5.4 Damp heat test
After the initial detection of the sample off the power supply, temperature and humidity into the box, so that the inside temperature was raised to (40 ± 2) ℃, and then the humidity reaches
90% to 95%, the balance after the start time, to maintain the value 48h. Immediately remove the test sample, 2h after switching power supply function tests, should be able to
normal work.
5.5.5 low temperature storage test
The test samples were placed in cryogenic chamber to keep the temperature down to 3 tables specified temperature, within this range to maintain 16h after the test sample
From the inside out, under normal environmental conditions return 2h, the test sample to be tested, the test results should meet the requirements of 4.5.2.
5.5.6 Vibration Test
5.5.6.1 The test samples were normal position firmly fixed vibration table, if there is vibration test sample holder should be removed or overhead.
5.5.6.2 vibration sinusoidal vibration, under the conditions specified in Table 3, in the X, Y, Z three-axis vibration response check respectively. If there is
The resonance frequency, the frequency of this vibration 30min; if there is no resonant frequency at 35Hz vibration 30min, a total of 90min.
5.5.6.3 After the vibration test the test sample should be able to work normally, and no loose components, displacement and damage.
5.5.7 Impact test
The test sample is firmly fixed in the shock stage, according to Table 3 and duration of acceleration in X, Y, Z axis all three were rushed
Hit three times, after the test sample should not have obvious damage and deformation. Determined by the product to test its functionality, it should be able to work properly.
5.6 Stability Test
After the initial detection of the sample, using normal installation position, and the rated supply volt...
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