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GB/T 13161-2015: Radiation protection instrumentation -- Measurement of personal dose equivalents Hp (10) and Hp (0.07) for X, gamma, neutron and beta radiations -- Direct reading personal dose equivalent meters
Status: Valid GB/T 13161: Evolution and historical versions
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Radiation protection instrumentation -- Measurement of personal dose equivalents Hp (10) and Hp (0.07) for X, gamma, neutron and beta radiations -- Direct reading personal dose equivalent meters
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GB/T 13161-2015
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| GB/T 13161-2003 | English | 799 |
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Direct reading personal dose equivalent (rate) monitors for X and gamma radiation
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Direct reading, personal dose equivalent and/or doseequivalent rate monitors for X and gamma radiation
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PDF similar to GB/T 13161-2015
Basic data | Standard ID | GB/T 13161-2015 (GB/T13161-2015) | | Description (Translated English) | Radiation protection instrumentation -- Measurement of personal dose equivalents Hp (10) and Hp (0.07) for X, gamma, neutron and beta radiations -- Direct reading personal dose equivalent meters | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | F84 | | Classification of International Standard | 13.280 | | Word Count Estimation | 51,581 | | Date of Issue | 2015-10-09 | | Date of Implementation | 2016-05-01 | | Older Standard (superseded by this standard) | GB/T 13161-2003; GB/T 14323-1993 | | Quoted Standard | GB/T 2900.81-2008; GB/T 2900.82-2008; GB 4208-2008; GB/T 6592-2010; GB/T 12162.1-2000; GB/T 12162.2-2004; GB/T 12162.3-2004; GB/T 12162.4-2010; GB/T 12164.1-2008; GB/T 14055.1-2008; GB/T 14055.2-2012; GB/T 16511-1996; GB/T 17626.4-2008; GB/T 17626.5-2008; GB/T 17626.11 -2008; ISO 6980-2-2004; ISO 6980-3-2006; ISO 8529-3-1998; ISO 12789-1-2008; ISO 12789-2-2008; ISO/IEC Guide 98-3-2008; ISO/IEC Guide 98-3-2008/Suppl.1; IEC 60068-2-31-2008; GB/T 8897.1-2008; GB/T 8897.2-2008; GB/T 17626.2-2006; IEC 61000-4-2-2008; GB/T 17626.3-2006; IEC 61000-4-3-2008; GB/T 17626.6-2008; IEC 61000-4-6-2008; GB/T 17626.8-2006; IEC 61000-4-8-2009; GB/T 17799.2-2003; IEC 61000-6-2-2005; IEC/TR 62461-2006; ICRU REPORT 51-1993 | | Adopted Standard | IEC 61526-2010, IDT | | Regulation (derived from) | National Standard Announcement 2015 No.31 | | 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 standard applies to personal dose equivalent meter. This standard specifies the dosimeter and associated readout system (such as the provision) requirements. This standard specifies the general characteristics of the dosimeter, the general test methods, radiation characteristics as well as electrical, mechanical, safety and environmental features. | GB/T 13161-2015: Radiation protection instrumentation -- Measurement of personal dose equivalents Hp (10) and Hp (0.07) for X, gamma, neutron and beta radiations -- Direct reading personal dose equivalent meters
---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.
Radiation protection instrumentation-Measurement of personal doseequivalents Hp(10) and Hp(0.07) for X, gamma, neutron and beta radiations.Direct reading personal dose equivalent meters
ICS 13.280
F84
National Standards of People's Republic of China
Replacing GB/T 13161-2003, GB/T 14323-1993
Radiation protection instruments measure X, γ, neutron and
Beta radiation personal dose equivalents Hp (10) and Hp (0.07)
Direct reading personal dose equivalent
(IEC 61526.2010, IDT)
2015-10-09 released.2016-05-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
China National Standardization Administration issued
Content
Foreword V
Introduction VII
1 Scope 1
2 Normative references 1
3 Terms and Definitions 3
4 units and symbols list 9
4.1 Unit 9
4.2 Symbol List 9
5 Mechanical characteristics 11
5.1 Size 11
5.2 Quality 11
5.3 Housing 11
5.4 Switch 11
6 General characteristics 11
6.1 Storage of dose information 11
6.2 Indication value 11
6.3 Dosimeter marking 12
6.4 Suppression of radioactive contamination 12
6.5 dose equivalent and dose equivalent rate range 12
6.6 Effective measurement range 12
6.7 rated range of impact quantity 12
6.8 Using multiple dosimeters 12
6.9 Indicator value generated by the instrument artificial background 12
6.10 dose or dose rate alarm 12
6.11 Fault indication value 13
7 General test methods 13
7.1 Test characteristics 13
7.2 Reference conditions and standard test conditions 13
7.3 Test of F-type impacts 13
7.4 Test of S-type influences 13
7.5 Test phantom 14
7.6 Location of the detector device during the test 14
7.7 Position of the dosimeter during use 14
7.8 Minimum rated range of influences 14
7.9 Low dose equivalent rate 14
7.10 Statistical fluctuations 14
7.11 Generation of reference radiation 14
8 superimposed indicator value 15
8.1 Requirements 15
8.2 Test method 15
8.3 Interpretation of results 15
9 Radiation performance requirements and tests 15
9.1 Overview 15
9.2 Consideration of the uncertainty of the quantitative value 16
9.3 Dose response stability, dose rate dependence, and statistical fluctuations 16
9.4 Response to changes in photon radiant energy and angle of incidence 17
9.5 Response to changes in neutron radiant energy and angle of incidence 18
9.6 Response as a function of beta radiant energy and angle of incidence 19
9.7 Hold of dose equivalent readings 20
9.8 Overload Characteristics 21
9.9 Alarm 21
9.10 Model Function 23
10 Electrical and environmental performance requirements and tests 23
10.1 Overview 23
10.2 Power supply 23
10.3 Ambient temperature 25
10.4 Relative humidity 26
10.5 Atmospheric pressure 26
10.6 Seal 26
10.7 Storage 26
11 Electromagnetic compatibility performance requirements and tests 27
11.1 Overview 27
11.2 Electrostatic discharge 27
11.3 RF electromagnetic field 27
11.4 Conducted disturbances caused by fast transients or bursts 28
11.5 Conducted disturbances caused by surges 28
11.6 Conducted disturbance caused by radio frequency 28
11.7 50Hz magnetic field 29
11.8 Voltage Sag and Short Interruption 29
12 Mechanical performance requirements and tests 29
12.1 Overview 29
12.2 Drop Test 29
12.3 Vibration test 30
12.4 Flutter Test 30
13 Uncertainty 30
14 File 30
14.1 Type Test Report 30
14.2 Certificate of Conformity 30
15 Operation and Maintenance Manual 31
Appendix A (Normative Appendix) Statistical Fluctuations 38
Appendix B (informative) Method for determining the relative response change resulting from the radiant energy and the angle of incidence of the radiation 40
Appendix C (informative) Use category of personal dosimeters 41
Reference 42
Table 1 Symbols (and abbreviations) 9
Table 2 c1 and c2 values for n different dose values and n indicator values for each dose value 31
Table 3 Reference conditions and standard test conditions 32
Table 4 Radiation characteristics of X, γ and β radiation Hp (0.07) dosimeters 32
Table 5 Radiation characteristics of X and gamma radiation Hp(10) dosimeters 34
Table 6 Radiation characteristics of neutron-radiated Hp(10) dosimeters 35
Table 7 Electrical and environmental characteristics of the dosimeter 36
Table 8 Electromagnetic disturbance characteristics of the dosimeter 36
Table 9 Mechanical disturbance characteristics of the dosimeter 37
Table A.1 Number of readings required to measure the true difference between the two readings of the same instrument (95% confidence level)
Table C.1 Use of personal dosimeters category 41
Foreword
This standard was drafted in accordance with the rules given in GB/T 1.1-2009.
This standard replaces GB/T 13161-2003 "Direct reading personal X and gamma radiation dose equivalent and dose equivalent rate monitor" and
GB/T 14323-1993 "X, γ radiation personal alarm device", compared with GB/T 13161-2003 and GB/T 14323-1993 main technology
The changes are as follows.
--- Integrate different instrument standards for different types of radiation (X, γ, neutron and beta radiation) into one standard, extending the standard
Range of use;
--- Electromagnetic compatibility performance requirements and tests increase RF electromagnetic fields, conducted disturbances caused by fast transients or bursts, induced by surges
Conducted disturbances, conducted disturbances caused by radio frequency, 50 Hz magnetic field, voltage sag and short interruptions;
--- Mechanical performance requirements and tests have increased the flutter test;
--- Added "uncertainty" content;
--- Removed "storage, transportation, packaging, signs".
This standard uses the translation method equivalent to the use of IEC 61526.2010 "radiation protection equipment to measure X, gamma, neutron and beta radiation personal dose when
Volume Hp (10) and Hp (0.07) Direct Reading Personal Dose Equivalent Apparatus.
The documents of our country that have a consistent correspondence with the international documents referenced in this standard are as follows.
--- GB/T 8897.1-2008 Primary batteries Part 1. General (IEC 60086-1.2007, MOD)
--- GB/T 8897.2-2008 Primary batteries Part 2. Dimensions and electrical performance requirements (IEC 60086-2.2007, MOD)
---GB/T 17626.2-2006 Electromagnetic compatibility test and measurement technology Electrostatic discharge immunity test (IEC 61000-4-2.
2001, IDT)
---GB/T 17626.3-2006 Electromagnetic compatibility test and measurement technology RF electromagnetic field radiation immunity test
(IEC 61000-4-3.2002, IDT)
---GB/T 17626.6-2008 Electromagnetic compatibility test and measurement technology Conducted disturbance immunity of RF field induction
(IEC 61000-4-6.2006, IDT)
---GB/T 17626.8-2006 Electromagnetic compatibility test and measurement technology Power frequency magnetic field immunity test (IEC 61000-4-8.
2001, IDT)
---GB/T 17799.2-2003 Electromagnetic compatibility general standard immunity test in industrial environment (IEC 61000-6-2.
1999, IDT)
This standard has made the following editorial changes.
--- Replace IEC 60529.2001 with IEC 60529.2001 and its Amendment1 in "2 Normative References"
(1999), and the international standards of the corresponding national standards have been changed to the standards of China;
--- Because the X, γ personal dose equivalent instrument can also use other ISO phantoms during the test, will be in 7.5, 9.3.5, 9.4.1.2 and 9.4.2.2
The "ISO water slab phantom" was changed to "ISO phantom";
--- Change the "ISO 6980 series standard" in 9.6.2.2 to "GB/T 12164.1-2008, ISO 6980-2.2004 and ISO 6980-
3.2006";
--- 9.9.2.2 in the third line "in the case of step increase or decrease the dose equivalent rate of irradiation" changed to "in step increase dose equivalent
In the case of rate irradiation", line 6 "in the case of increasing or decreasing the dose equivalent rate of irradiation" is changed to "in stepping reducer"
In the case of the irradiation of the equivalent amount rate, the original text is incorrect;
--- Replace 9.9.4.1 "(see Table 4~3 of the sixth line)" with "(see item 10, table 5 and item 8 of Table 6)" and
Add "9.9.4" to the "Article Number" in item 10 of Table 4 and Item 8 of Table 5 and Table 6;
---11.7 Delete "60Hz" that does not meet the national conditions;
--- 11.2 in the 11th column description, see "9.4.2" was changed to "see 9.3.2", the original text is incorrect;
--- The third line of the first column of Table 3 "dose rate. Hp (10), Hp (0.07)" is incorrect, changed to "dose rate. H
p(10), H
p(0.07)";
--- In the fourth column of the fifth row of Table 4 (No. 4), "E< 50keV" should be placed in the third column, and the "-33%~100%" pair in the fourth column
Qi, the IEC standard is wrong, because "E< 50keV" belongs to the category of "minimum rated range of influence".
This standard was proposed by China National Nuclear Corporation.
This standard is under the jurisdiction of the National Nuclear Instrumentation Standardization Technical Committee (SAC/TC30).
This standard was drafted. Shenzhen Institute of Metrology and Quality Inspection, Xi'an Nuclear Instrument Factory.
The main drafters of this standard. Li Mingzhao, Sun Liping, Luo Yuan, Gao Hui, Li Zhongyuan, Li Jianbo, Zhou Yingchun.
The previous versions of the standards replaced by this standard are.
---GB/T 13161-1991, GB/T 13161-2003;
---GB/T 14323-1993.
Introduction
This standard applies to active and direct reading personal dose equivalent measuring instruments and monitors. The instrument is used to measure X, γ, neutron and beta radiation.
The individual doses are equivalent to Hp (10) and Hp (0.07).
For personal dose equivalent Hp (10) or personal dose equivalent rate H
p(10) and X and γ radiation give the two minimums of photon energy
Rated range. The first rated range is 20keV~150keV for workplaces using low energy X-rays (eg medical diagnosis),
Two rated ranges from 80 keV to 1.5 MeV are used in workplaces where high energy X-rays and/or gamma sources are used (eg industrial). For neutrons
Radiation, the minimum rated range of neutron energy is 0.025 eV (thermal neutron) ~ 5 MeV. The rated range can be extended to different radiation field related targets
All energy that is covered.
For individual dose equivalents Hp (0.07) and X and gamma radiation, the minimum rated range of photon energy is 20 keV to 150 keV,
For beta radiation, the minimum rating range is 0.2 MeV to 0.8 MeV. The rated range can be extended to cover different radiation field related standards
Have energy.
Examples of extended nominal ranges are given in Appendix C.
In some applications (eg 6 MaiV photon radiation in the vicinity of a nuclear reactor), it is desirable to measure photon energy up to 10 MeV
Personal dose equivalent (rate) Hp (10). In some other applications, it is desirable to measure Hp(10) down to 10 keV.
For personal dose equivalents, it is required to measure the dose values Hp(10) and Hp(0.07) and give the dose rate value H for monitoring.
p(10) and
p (0.07). Measurement of these dose rate values is an option for personal dose equivalents.
Radiation protection instruments measure X, γ, neutron and
Beta radiation personal dose equivalents Hp (10) and Hp (0.07)
Direct reading personal dose equivalent
1 Scope
This standard applies to personal dose equivalents with the following characteristics.
a) worn on the human torso or limbs;
b) measuring individual dose equivalents Hp(10) and Hp(0.07) produced by external X and gamma, neutron and beta radiation, and measuring individual agents
Volume equivalent rate H
p(10) and H
p(0.07);
c) has a digital display;
d) may have a personal dose equivalent or personal dose equivalent rate alarm function.
Therefore, this standard applies to the following dose levels (including the respective dose rate) and the measurement of the radiation combination.
1) Hp(10) and Hp(0.07) produced by X and gamma radiation;
2) Hp(10) and Hp(0.07) produced by X, γ and β radiation;
3) Hp(10) produced by X and gamma radiation;
4) Hp(10) generated by neutron radiation;
5) Hp(10) produced by X, γ and neutron radiation;
6) Hp (0.07) produced by X, gamma and beta radiation.
Note 1. Unless otherwise stated, when referring to “dose” in this standard, it refers to the individual dose equivalent.
Note 2. Unless otherwise stated, when reference is made to “dose meter” in this standard, it is meant to include all personal dose equivalents.
This standard specifies the requirements for dosimeters and their associated readout systems (if provided).
This standard specifies the general characteristics, general test methods, radiation characteristics, and electrical, mechanical, safety, and environmental characteristics of the above dosimeters.
Only the relevant readout system is required to affect the personal dose equivalent readout accuracy and alarm settings and to the reader to the dose meter
Resounding requirements.
This standard also specifies the classification of instruments used in Appendix C based on different measurement capabilities.
This standard does not include special requirements for accident or emergency dosimetry, although dosimeters can be used for this purpose. This standard does not apply to testing
Dosimeters that measure pulsed radiation (eg, radiation produced by most medical X-ray diagnostic equipment, linear accelerators, or similar devices).
2 Normative references
The following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article.
Pieces. For undated references, the latest edition (including all amendments) applies to this document.
GB/T 2900.81-2008 Electrotechnical terminology Nuclear instrument physical phenomena and basic concepts (IEC 60050-393.2003, IDT)
GB/T 2900.82-2008 Electrotechnical terminology nuclear instrumentation, systems, equipment and detectors (IEC 60050-394.2007,
IDT)
GB 4208-2008 Shell protection class (IP code) (IEC 60529.2001, IDT)
GB/T 6592-2010 Performance representation of electrical and electronic measuring equipment (IEC 60359.2001, IDT)
GB/T 12162.1-2000 X and γ reference radiation for calibrating dosimeters and dose rate meters and determining their energy response
Part. Radiation characteristics and production methods (idtISO 4037-1.1996)
GB/T 12162.2-2004 X and γ reference radiation for calibrating dosimeters and dose rate meters and determining their energy response
Part. Dosimetry of reference radiation for energy protection from 80 keV to 1.3 MeV and 4 MeV to 9 MeV
(ISO 4037-2.1997, IDT)
GB/T 12162.3-2004 X and γ reference radiation for calibrating dosimeters and dose rate meters and determining their energy response
Part. Calibration of site dosimeters and personal dosimeters and determination of their energy effects and angular responses (ISO 4037-3.1999, IDT)
GB/T 12162.4-2010 X and γ reference radiation for calibrating dosimeters and dose rate meters and determining their energy response
Part. Calibration of sites and personal dosimeters in low-energy X-ray reference radiation fields (ISO 4037-4.2004, IDT)
GB/T 12164.1-2008 β reference radiation Part 1. Method of production (ISO 6980-1.2006, IDT)
GB/T 14055.1-2008 Neutron reference radiation Part 1. Radiation characteristics and method of production (ISO 8529-1.2001, IDT)
GB/T 14055.2-2012 Neutron reference radiation Part 2. Radiation protection meter calibration associated with characterization of the basic amount of radiation field
Foundation (ISO 8529-2.2000, IDT)
GB/T 16511-1996 Random documentation for electrical and electronic measuring equipment (idtIEC 61187.1993)
GB/T 17626.4-2008 Electromagnetic compatibility test and measurement technology Electrical fast transient burst immunity test (IEC 61000-
4-4.2004, IDT)
GB/T 17626.5-2008 Electromagnetic compatibility test and measurement technology Surge (impact) immunity test (IEC 61000-4-5.
2005, IDT)
GB/T 17626.11-2008 Electromagnetic compatibility test and measurement techniques Immunity to voltage dips, short interruptions and voltage changes
Test (IEC 61000-4-11.2004, IDT)
ISO 6980-2.2004 Nuclear energy beta reference radiation Part 2. Basis of calibration associated with characterization of the fundamental quantities of radiation fields (Nuclear
energy-Referencebeta-Particleradiation-Part 2.Calibrationfundamentalsrelatedtobasicquantities
Charaterizingtheradiationfield)
ISO 6980-3.2006 Nuclear energy beta reference radiation - Part 3. Calibration of site and personal dosimeters and energy and angular response
OK (Nuclearenergy-Referencebeta-Particleradiation-Part 3.Calibrationofareaandperaonal
Dosemetersanddeterminationoftheirresponseasafunctionofbetaradiationenergyandangleofinci-
Dence)
ISO 8529-3.1998 Neutron reference radiation - Part 3. Calibration of physic and personal dosimeters and determination of energy and angular response
(Referenceneutronradiation-Part 3.Calibrationofareaandperaonaldosemetersanddetermination
Oftheirresponseasafunctionofbetaradiationenergyandangleofincidence)
ISO 12789-1.2008 Reference radiation field simulation of neutron field in workplace - Part 1. Radiation characteristics and method of production (Ref-
erenceradiationfields-Simulatedworkplaceneutronfields-Part 1.Characteristicsandmethodsof
Production)
ISO 12789-2.2008 Reference Radiation Fields Simulating the Neutron Field of the Workplace Part 2. Basis of Calibration Related to Basic Quantity
(Referenceradiationfields-Simulatedworkplaceneutronfields-Part 2.Calibrationfundamentalsre-
Lattitothebasicquantities)
ISO /IEC Guide 98-3.2008 Measurement uncertainty - Part 3. Guidance for the determination of measurement uncertainty (GUM..1995)
[Uncertaintyofmeasurement-Part 3. Guidetotheexpressionofuncertaintyinmeasurement(GUM.
1995)]
ISO /IEC Guide 98-3.2008/Suppl.1 Calculation of the distribution of radiation propagation using the Monte Carlo method and Amendment 1 (2009)
[PropagationofdistributionsusingaMonteCarlomethodandCorr.1 (2009)]
IEC 60068-2-31.2008 Environmental test Part 2-31. Test test Ec. Impact caused by rough handling, mainly used for
Equipment type samples (Environmentaltesting-Part 2-31. Tests-Test-Ec. Roughhandlingshocks, originally
Forequipment-typespecimens)
IEC 60086-1.2007 Primary batteries Part 1. General (Primarybatteries-Part 1. General)
IEC 60086-2.2007 Primary batteries Part 2. Dimensions and electrical performance requirements (Primarybatteries-Part 2.
Physicalandelectricalspecifications)
Electromagnetic compatibility (EMC) - Part 4-2. Test and measurement techniques Electrostatic discharge test [Electro-
Magneticcompatibility(EMC)-Part 4-3. Testing and measurementtechniques-Electrostatic
Dischargetest]
IEC 61000-4-3.2008 Electromagnetic compatibility (EMC) Part 4-3. Test and measurement techniques
Test [Electromagneticcompatibility(EMC)-Part 4-3. Testingand measurementtechniques-
Radiated, radio-frequency, electromagneticfieldimmunitytest]
IEC 61000-4-6.2008 Electromagnetic compatibility (EMC) Part 4-6. Test and measurement techniques
Immunity [Electromagneticcompatibility(EMC)-Part 4-6. Testingandmeasurementtechniques-Im-
Munitytoconducteddisturbances,inducedbyradio-frequency]
Electromagnetic compatibility (EMC) - Part 4-8. Test and measurement techniques - Power frequency magnetic field immunity test [E-
Lectromagneticcompatibility(EMC)-Part 4-8. Testing and measurementtechniques-Power
Frequencymagneticfieldimmunitytest]
IEC 61000-6-2.2005 Electromagnetic compatibility - Part 6-2. Immunity test in a general standard industrial environment [Electromag-
Neticcompatibility(EMC)-Part 6-2. Genericstandards-Immunityforindustrialenvironments]
IEC /T R62461.2006 Determination of measurement uncertainty for radiation protection instruments (Radiationprotectioninstrumenta-
tion-Determinationofuncertaintyinmeasurement)
ICRUREPORT 51.1993 Quantity and units used in radiation protection dosimetry (Quantitiesandunitsinradiation)
Protectiondosimetry)
3 Terms and definitions
GB/T 2900.81-2008, GB/T 2900.82-2008, GB/T 6592-2010 and ICRUREPORT 51..1993
And the following terms and definitions apply to this document.
3.1
Acceptance test acceptance test
In order to prove to the customer that the instrument meets the contract test requirements specified in its specifications.
3.2
Calibration (for this standard) calibration(forthepurposeofthisstandard)
Quantitatively determine the parameters under a controllable standard test condition where all m relative response values rq are 1 and all l deviations Dp are 0.
The relationship between the calibration factor N0 and the nonlinear response correction value rn is examined.
3.3
Calibration factor calibrationfactor
Under the specified reference conditions, the ratio of the agreed true value Hr of the specified reference radiation at the test point to the indicated value Gr. Expressed as.
N=
Hr
Gr
(1)
Note 1. (See GB/T 12162.3-2004) When the dosimeter indication is measured, the calibration factor N is dimensionless. The dosimeter accurately indicates the agreed true value
When the calibration factor is 1.
Note 2. (see GB/T 12162.3-2004) The reciprocal of the calibration factor is equal to the response under the reference conditions. The calibration factor is only relative to the reference condition, and the ringing
It should be possible to target any conditions at the time of measurement.
Note 3. (See GB/T 12162.3-2004) The value of the calibration factor may vary with the measured value. At this point the doser is said to have a non-linear response.
3.4
Coefficient of variation
The ratio of the standard deviation s of a set of n measured values xi to its arithmetic mean x.
ν=
x
x
N-1∑
i=1
Xi-x( ) 2 (2)
3.5
Synthetic standard measurement uncertainty combinedstandardmeasurementuncertainty
Synthetic standard uncertainty combinedstandarduncertainty
Uc
Standard measurement uncertainty obtained using different standard measurement uncertainty associated with various inputs in the measurement model.
Note. If the input quantities are relevant in the measurement model, the covariance should also be considered when calculating the synthetic standard measurement uncertainty, see ISO /IEC Guide 98-3.
2.3.4 of.2008.
3.6
Quantitative value of conventionalquantityvalue
The agreed value of the amount of conventionalvalueofquantity
Conventional value
A quantity that is assigned to a given purpose by convention.
Note 1. This concept is sometimes expressed by the “contractual truth value of quantity”, but it is discouraged.
Note 2. Sometimes the approximate quantitative value is an estimate of the true value.
Note 3. It is generally considered that the approximate quantitative value has only a very low measurement uncertainty (possibly zero).
Note 4. In this standard, the quantity is the dose equivalent (rate).
3.7
Nonlinear response correction correctionfornon-constantresponse
Rn
Under the specified conditions, there is only the ratio of the response R obtained by the measured change to the reference response R0. Expressed as.
Rn=
R0
(3)
Note. An instrument with a linear response is equal to 1.
3.8
Detector device detectorassembly
A device consisting of a radiation detector and associated components required to calibrate or determine the response.
Note. The calibration results are only valid for this detector unit.
Example. Calibrate a personal dosimeter using a phantom. The personal dosimeter and phantom and the combination of the readout instrument and the cable form a detector device.
3.9
Deviation deviation
The difference between the indicated value (two different values) given by the dose equivalent (rate) meter for the same measured value when the amount of influence is continuously presented.
D=G-Gr (4)
In the formula.
G --- the indicated value of the affected quantity;
Gr --- indication value under reference conditions.
Note 1. This term is derived from 311-07-03 “Changes in the amount of influence” in GB/T 2900.77-2008, in order to avoid confusion (changes in (indicative values)”
And "changes in response", which is referred to as "deviation" in this standard.
Note 2. The deviation can be positive or negative depending on the increase or decrease of the indicated value.
Note 3. Deviation is particularly important for the amount of S-type impact.
3.10
Effective measurement range effectiverangeofmeasurement
The performance of the dosimeter meets the range of measured values required by this standard.
3.11
Extended measurement uncertainty expandedmeasurementuncertainty
Extended uncertainty expandeduncertainty
The product of the synthetic standard measurement uncertainty and a coefficient greater than one.
Note 1. This factor depends on the probability distribution of th...
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