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Spectral Quantitative Analyzer

Spectral Quantitative Analyzer, Total:499 items.

In the international standard classification, Spectral Quantitative Analyzer involves: Analytical chemistry, Optics and optical measurements, Special measuring equipment for use in telecommunications, Fibre optic communications, Metalliferous minerals, Power stations in general, Nuclear energy engineering, Optoelectronics. Laser equipment, Electronic components in general, Non-ferrous metals, Vocabularies, Quality, Water quality, Test conditions and procedures in general, Products of the chemical industry, Electricity. Magnetism. Electrical and magnetic measurements, Particle size analysis. Sieving, Products of the textile industry, Medical equipment, Fertilizers, Non-destructive testing, Corrosion of metals, Equipment for the chemical industry, Industrial automation systems, Linear and angular measurements, Ferrous metals, Lubricants, industrial oils and related products, Testing of metals, Milk and milk products, Animal feeding stuffs, Inorganic chemicals, Ferroalloys, Fuels, Telecommunication systems, Soil quality. Pedology, Petroleum products in general, Insulating fluids, Radiation measurements, Products of non-ferrous metals, METALLURGY, Iron and steel products, Non-metalliferous minerals.

International Organization for Standardization (ISO), Spectral Quantitative Analyzer

• ISO 22309:2006 Microbeam analysis - Quantitative analysis using energy-dispersive spectrometry (EDS)
• ISO 15472:2010 Surface chemical analysis - X-ray photoelectron spectrometers - Calibration of energy scales
• ISO 15472:2001 Surface chemical analysis - X-ray photoelectron spectrometers - Calibration of energy scales
• ISO 22489:2006 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength-dispersive X-ray spectroscopy
• ISO 22489:2016 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength dispersive X-ray spectroscopy
• ISO 17973:2016 Surface chemical analysis - Medium-resolution Auger electron spectrometers - Calibration of energy scales for elemental analysis
• ISO 17973:2002 Surface chemical analysis - Medium-resolution Auger electron spectrometers - Calibration of energy scales for elemental analysis
• ISO 23674:2022 Cosmetics — Analytical methods — Direct determination of traces of mercury in cosmetics by thermal decomposition and atomic absorption spectrometry (mercury analyser)
• ISO 15470:2004 Surface chemical analysis - X-ray photoelectron spectroscopy - Description of selected instrumental performance parameters
• ISO 22309:2011 Microbeam analysis - Quantitative analysis using energy-dispersive spectrometry (EDS) for elements with an atomic number of 11 (Na) or above
• ISO 17470:2014 Microbeam analysis - Electron probe microanalysis - Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry
• ISO 21270:2004 Surface chemical analysis - X-ray photoelectron and Auger electron spectrometers - Linearity of intensity scale
• ISO 17974:2002 Surface chemical analysis - High-resolution Auger electron spectrometers - Calibration of energy scales for elemental and chemical-state analysis
• ISO/DIS 14594 Microbeam analysis — Electron probe microanalysis — Guidelines for the determination of experimental parameters for wavelength dispersive spectroscopy
• ISO 15471:2004 Surface chemical analysis - Auger electron spectroscopy - Description of selected instrumental performance parameters
• ISO 15471:2016 Surface chemical analysis - Auger electron spectroscopy - Description of selected instrumental performance parameters
• ISO 17470:2004 Microbeam analysis - Electron probe microanalysis - Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry
• ISO 16129:2012 Surface chemical analysis - X-ray photoelectron spectroscopy - Procedures for assessing the day-to-day performance of an X-ray photoelectron spectrometer
• ISO 15632:2021 Microbeam analysis - Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers (EDS) for use with a scanning electron microscope (SEM) or an electron probe microanalyser (EPMA)
• ISO 15632:2012 Microbeam analysis - Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers for use in electron probe microanalysis
• ISO 18118:2004 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Guide to the use of experimentally determined relative sensitivity factors for the quantitative analysis of homogeneous materials
• ISO 18118:2015 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Guide to the use of experimentally determined relative sensitivity factors for the quantitative analysis of homogeneous materials
• ISO 7530-3:1990 Nickel alloys — Flame atomic absorption spectrometric analysisPart 3:Determination of chromium content
• ISO 15632:2002 Microbeam analysis - Instrumental specification for energy dispersive X-ray spectrometers with semiconductor detectors
• ISO 16129:2018 Surface chemical analysis — X-ray photoelectron spectroscopy — Procedures for assessing the day-to-day performance of an X-ray photoelectron spectrometer

Taiwan Provincial Standard of the People's Republic of China, Spectral Quantitative Analyzer

• CNS 14341-1999 Optical spectrum analyzer
• CNS 12013-1987 Method of Test for Lead in Gasoline by Atomic Absorption Spectrometry
• CNS 7518-1981 Method for Determination of Cobalt in Ores (Polarographic Method)

U.S. Air Force, Spectral Quantitative Analyzer

• AIR FORCE A-A-59684 A-2009 OPTICAL SPECTRUM ANALYZER
• AIR FORCE A-A-59684-2004 OPTICAL SPECTRUM ANALYZER

National Metrological Verification Regulations of the People's Republic of China, Spectral Quantitative Analyzer

• JJG(电子) 30901-2006 Verification Regulations for Spectrum Analyzers
• JJG 1035-2008 Verification Regulation of Optical Spectrum Analyzers in Telecommunication
• JJG 1035-2022 Communication Spectrum Analyzer
• JJG 501-2000 Verification Regulation of Spectrum Analyzers
• JJG(航天) 9-1985 2107 Verification Regulations for Spectrum Analyzers
• JJG(航天) 10-1985 2112 Verification Regulations for Spectrum Analyzers
• JJG(地质) 1005-1990 Verification Regulations for Laser Uranium Analyzer
• JJG(电子) 07010-1991 Specification for verification of YH4032 model panoramic spectrum analyzers
• JJG(电子) 07007-1989 141T/8554B/8552B Spectrum Analyzer Verification Regulations
• JJG 945-2010 Verification Regulation of Micro Oxygen Analyzers
• JJG(电子) 07005-1988 QF4021 High Frequency Spectrum Analyzer Trial Verification Regulations
• JJG(电子) 07008-1991 Verification Regulations for SWOF Video Swept Spectrum Analyzer
• JJG(邮电) 016-1992 Specification for verification of scalar quantity network analyzers
• JJG 1104-2015 Dynamic Light Scattering Particle Size Analyzers
• JJG 955-2000 Verification Regulation of Special Analysis Microdensitimeters

British Standards Institution (BSI), Spectral Quantitative Analyzer

• BS EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments. Optical spectrum analyzers
• BS EN 62129:2006 Calibration of optical spectrum analyzers
• BS EN ISO 23674:2022 Cosmetics. Analytical methods. Direct determination of traces of mercury in cosmetics by thermal decomposition and atomic absorption spectrometry (mercury analyser)
• BS EN 61280-1-1:1998 Optical fibre amplifiers.Basic spectrum analyzers - Transmitter output optical power measurement for single-mode optical fibre cable
• BS ISO 17973:2003 Surface chemical analysis - Medium-resolution Auger electron spectrometers - Calibration of energy scales for elemental analysis
• BS EN 61290-5-1:2006 Optical amplifiers - Test methods - Reflectance parameters - Optical spectrum analyzer method
• BS ISO 11505:2012 Surface chemical analysis. General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry
• BS ISO 22489:2007 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength-dispersive X-ray spectroscopy
• BS ISO 22489:2016 Microbeam analysis. Electron probe microanalysis. Quantitative point analysis for bulk specimens using wavelength dispersive X-ray spectroscopy
• BS ISO 15470:2005 Surface chemical analysis - X-ray photoelectron spectroscopy - Description of selected instrumental performance parameters
• BS ISO 15470:2017 Surface chemical analysis. X-ray photoelectron spectroscopy. Description of selected instrumental performance parameters
• 21/30387777 DC BS EN ISO 23674. Cosmetics. Analytical methods. Direct determination of traces of mercury in cosmetics by thermal decomposition. Atomic absorption spectrometry (mercury analyzer)
• BS EN IEC 61290-1-1:2020 Optical amplifiers. Test methods - Power and gain parameters. Optical spectrum analyzer method
• 19/30394914 DC BS ISO 15632. Microbeam analysis. Selected instrumental performance parameters for the specification and checking of energydispersive X-ray spectrometers for use in electron probe microscope or an electron probe microanalyser (EPMA)
• BS EN 14726:2005 Aluminium and aluminium alloys - Chemical analysis - Guideline for spark optical emission spectrometric analysis
• BS DD ISO/TS 9941:2006 Milk and canned evaporated milk - Determination of tin content - Spectrometric method
• BS 5766-3:1999 Methods for analysis of animal feeding stuffs. Determination of phosphorus content (spectrometic method)
• BS ISO 15632:2012 Microbeam analysis. Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers for use in electron probe microanalysis
• BS ISO 15632:2021 Microbeam analysis. Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers (EDS) for use with a scanning electron microscope (SEM) or an electron probe microanalyser (EPMA)
• BS ISO 17974:2002 Surface chemical analysis - High-resolution Auger electron spectrometers - Calibration of energy scales for elemental and chemical-state analysis
• BS ISO 21270:2004 Surface chemical analysis. X-ray photoelectron and Auger electron spectrometers. Linearity of intensity scale
• BS ISO 17560:2002 Surface chemical analysis - Secondary-ion mass spectrometry - Method for depth profiling of boron in silicon
• BS ISO 17560:2014 Surface chemical analysis. Secondary-ion mass spectrometry. Method for depth profiling of boron in silicon
• BS ISO 15471:2005 Surface chemical analysis - Auger electron spectroscopy - Description of selected instrumental performance parameters
• DD 220-1994 Soil quality. Determination of mineral oil content. Method by infrared spectrometry and gas chromatographic method
• BS EN ISO 10700:1995 Steel and iron - Determination of manganese content - Flame atomic absorption spectrometric method
• BS ISO 11938:2012 Microbeam analysis. Electron probe microanalysis. Methods for elemental-mapping analysis using wavelength-dispersive spectroscopy
• BS EN 61290-10-2:2009 Optical amplifiers. Test methods. Multichannel parameters. Pulse method using a gated optical spectrum analyzer
• BS EN 61290-10-2:2008 Optical amplifiers – Test methods — Part 10-2: Multichannel parameters – Pulse method using a gated optical spectrum analyzer
• BS ISO 16129:2012 Surface chemical analysis. X-ray photoelectron spectroscopy. Procedures for assessing the day-to-day performance of an X-ray photoelectron spectrometer
• BS 7020-9.1:1989 Analysis of iron ores - Methods for the determination of manganese content - Spectrophotometric method
• BS 7020-10.2:1988 Analysis of iron ores - Methods for the determination of copper content - Flame atomic absorption spectrometric method
• BS ISO 18118:2005 Surface chemical analysis - Auger electron spectroscopy and X-ray photoelectron spectroscopy - Guide to the use of experimentally determined relative sensitivity factors for the quantitative analysis of homogeneous materials

European Committee for Standardization (CEN), Spectral Quantitative Analyzer

• CEN EN 62129-2006 Calibration of optical spectrum analyzers
• CEN EN 62129-2006_ Calibration of optical spectrum analyzers
• EN ISO 23674:2022 Cosmetics - Analytical methods - Direct determination of traces of mercury in cosmetics by thermal decomposition and atomic absorption spectrometry (mercury analyser) (ISO 23674:2022)
• prEN ISO 23674:2021 Cosmetics - Analytical methods - Direct determination of traces of mercury in cosmetics by thermal decomposition - Atomic absorption spectrometry (mercury analyzer) (ISO/DIS 23674:2021)

Association Francaise de Normalisation, Spectral Quantitative Analyzer

• NF C93-845:2006 Calibration of optical spectrum analyzers.
• NF C93-846-1*NF EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1 : optical spectrum analyzers
• NF EN 62129-1:2016 Étalonnage des appareils de mesure de longueur d'onde/appareil de mesure de la fréquence optique - Partie 1 : analyseurs de spectre optique
• NF X21-003:2006 Microbeam analysis - Electron probe microanalysis - Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry.
• NF X21-055:2006 Surface chemical analysis - X-ray photoelectron spectrometers - Calibration of energy scales.
• NF X11-672:1996 Particle size analysis. Photon correlation spectroscopy.
• NF EN ISO 23674:2022 Cosmétiques - Méthodes d'analyse - Dosage direct des traces de mercure dans les cosmétiques par décomposition thermique et spectrométrie d'absorption atomique (analyseur de mercure)
• NF X21-054*NF ISO 17973:2006 Surface chemical analysis - Medium-resolution Auger electron spectrometers - Calibration of energy scales for elemental analysis.
• NF C93-845-2*NF EN 62150-2:2011 Fibre optic active components and devices - Test and measurement procedures - Part 2 : ATM-PON transceivers.
• NF X21-006:2007 Microbeam analysis - Electron probe microanalysis - Quantitative point analysis for bulk specimens using wavelength-dispersive X-ray spectroscopy.
• NF U44-145:1984 FERTILIZERS AND SOILS CONDITIONERS. DETERMINATION OF MAGNESIUM BY ATOMIC ABSORPTION SPECTROMETRIC METHOD.
• NF A06-902*NF EN 12938:2000 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry.
• NF EN ISO 13196:2015 Qualité du sol - Analyse rapide d'une sélection d'éléments dans les sols à l'aide d'un spectromètre de fluorescence X à dispersion d'énergie portable ou portatif
• NF X21-002:2007 Microbeam analysis - Electron probe microanalysis - Guidelines for the determination of experimental parameters for wavelength dispersive spectroscopy.
• NF EN 61290-5-1:2006 Amplificateurs optiques - Méthodes d'essais - Partie 5-1 : paramètres de réflectance - Méthode d'analyseur de spectre optique
• NF X21-004*NF ISO 22309:2012 Microbeam analysis - Quantitative analysis using energy-dispersive spectrometry (EDS) for elements with an atomic number of 11 (Na) or above.
• NF A08-344:1996 Steel and iron. Determination of vanadium content. Flame atomic absorption spectrometric method.
• NF A06-653:1993 Chemical analysis of titanium and titanium alloys. Determination of iron content. Molecular absorption spectrometry method.
• NF C93-805-3-1*NF EN 61290-3-1:2004 Optical amplifiers - Test methods - Part 3-1 : noise figure parameters - Optical spectrum analyzer method
• NF EN 61290-3-1:2004 Amplificateurs optiques - Méthodes d'essai - Partie 3-1 : paramètres du facteur de bruit - Méthode d'analyseur du spectre optique
• NF X20-302:1974 Gas analysis by mass spectrometry. Determination of gas chemical composition.
• NF X21-008:2012 Microbeam analysis - Selected instrumental performance parameters for the specification and checking of energy-dispersive ray spectrometers for use in electron probe microanalysis
• NF A08-709:1983 Chemical analysis of copper alloys. Determination of antimony content. Atomic absorption spectrometry method.
• NF A08-341:1987 Chemical analysis of steel. Determination of silicon content. Flame atomic absorption spectrometric method.
• NF A08-309:2018 Chemical analysis of steels - Determination of molybdenum content - Flame atomic absorption spectrometric method
• NF C93-805-1-1:2020 Optical amplifiers - Test methods - Part 1-1 : Power and gain parameters - Optical spectrum analyzer method
• NF C93-805-1-1*NF EN 61290-1-1:2017 Optical amplifiers - Test methods - Part 1-1 : power and gain parameters - Optical spectrum analyzer method
• NF EN IEC 61290-1-1:2020 Amplificateurs optiques - Méthodes d'essai - Partie 1-1 : paramètres de puissance et de gain - Méthode de l'analyseur de spectre optique
• NF A08-908*NF ISO 7530-8:2007 Nickel alloys - Flame atomic absorption spectrometric analysis - Part 8 : determination of silicon content.
• NF A08-909*NF ISO 7530-9:2007 Nickel alloys - Flame atomic absorption spectrometric analysis - Part 9 : determination of vanadium content
• NF A08-902:1991 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 2 : determination of cobalt content.

International Electrotechnical Commission (IEC), Spectral Quantitative Analyzer

• IEC PAS 62129:2004 Calibration of optical spectrum analyzers
• IEC 62129:2006 Calibration of optical spectrum analyzers
• IEC 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers
• IEC 61290-2-1:1998 Optical fibre amplifiers - Basic specification - Part 2-1: Test methods for optical power parameters - Optical spectrum analyzer
• IEC 61290-1-1:1998 Optical fibre amplifiers - Basic specification - Part 1-1: Test methods for gain parameters - Optical spectrum analyzer
• IEC 61290-5-1:2000 Optical fibre amplifiers - Basic specification - Part 5-1: Test methods for reflectance parameters - Optical spectrum analyser
• IEC 61290-2-2:1998 Optical fibre amplifiers - Basic specification - Part 2-2: Test methods for optical power parameters - Electrical spectrum analyzer
• IEC 61290-3-1:2003 Optical amplifiers - Test methods - Part 3-1: Noise figure parameters; Optical spectrum analyzer method
• IEC 61290-1-1:2020 RLV Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method
• IEC 61290-1-1:2020 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method

Danish Standards Foundation, Spectral Quantitative Analyzer

• DS/EN 62129/Corr. 1:2007 Calibration of optical spectrum analyzers
• DS/EN 62129:2006 Calibration of optical spectrum analyzers
• DS/EN 61290-5-1:2006 Optical amplifiers - Test methods - Part 5-1: Reflectance parameters - Optical spectrum analyzer method
• DS/EN 61290-3-1:2004 Optical amplifiers - Test methods - Part 3-1: Noise figure parameters - Optical spectrum analyzer method
• DS/EN 61290-1-1:2007 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method
• DS/EN IEC 61290-1-1:2020 Optical amplifiers – Test methods – Part 1-1: Power and gain parameters – Optical spectrum analyzer method

Japanese Industrial Standards Committee (JISC), Spectral Quantitative Analyzer

• JIS C 6192:2008 Calibration of optical spectrum analyzers
• JIS M 8205:2000 Iron ores -- X-ray fluorescence spectrometric analysis
• JIS C 6183-1:2019 Optical spectrum analyzers -- Part 1: Test methods
• JIS C 6183:1992 Test methods of fiber-optic spectrum analyzer
• JIS K 0165:2011 Surface chemical analysis -- Medium-resolution Auger electron spectrometers -- Calibration of energy scales for elemental analysis
• JIS K 0162:2010 Surface chemical analysis -- X-ray photoelectron spectroscopy -- Description of selected instrumental performance parameters
• JIS H 1631:2008 Titanium alloys -- Method for X-ray fluorescence spectrometric analysis
• JIS G 1256 AMD 1:2010 Iron and steel -- Method for X-ray fluorescence spectrometric analysis (Amendment 1)
• JIS G 1351:2006 Ferroalloys -- Method of X-ray fluorescence spectrometric analysis
• JIS K 0166:2011 Surface chemical analysis -- High-resolution Auger electron spectrometers -- Calibration of energy scales for elemental and chemical-state analysis
• JIS K 0161:2010 Surface chemical analysis -- Auger electron spectroscopy -- Description of selected instrumental performance parameters
• JIS H 1669:1990 Method for X-ray fluorescence spectrometric analysis of zirconium alloys
• JIS G 1351:1987 Method for X-ray fluorescence spectrometric analysis of ferroalloys
• JIS K 0190:2010 Microbeam analysis -- Electron probe microanalysis -- Guidelines for qualitative point analysis by wavelength dispersive X-ray spectrometry

European Committee for Electrotechnical Standardization（CENELEC）, Spectral Quantitative Analyzer

• EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers
• EN 62129:2006 Calibration of optical spectrum analyzers (Incorporating corrigendum December 2006)
• EN 61290-1-1:2015 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method
• EN IEC 61290-1-1:2020 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method

ES-UNE, Spectral Quantitative Analyzer

• UNE-EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers (Endorsed by AENOR in July of 2016.)
• UNE-EN ISO 23674:2023 Cosmetics - Analytical methods - Direct determination of traces of mercury in cosmetics by thermal decomposition and atomic absorption spectrometry (mercury analyser) (ISO 23674:2022)
• UNE-EN 61290-3-1:2003 Optical amplifiers - Test methods -- Part 3-1: Noise figure parameters - Optical spectrum analyzer method (Endorsed by AENOR in April of 2004.)
• UNE-EN IEC 61290-1-1:2020 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method (Endorsed by Asociación Española de Normalización in December of 2020.)
• UNE-EN 61290-1-1:2015 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method (Endorsed by AENOR in August of 2015.)

工业和信息化部/国家能源局, Spectral Quantitative Analyzer

• JB/T 12962.2-2016 Energy dispersive X-ray fluorescence spectrometer Part 2: Elemental analyzers
• JB/T 12962.3-2016 Energy dispersive X-ray fluorescence spectrometer Part 3: Coating thickness analyzer
• JB/T 12962.1-2016 Energy-dispersive X-ray fluorescence spectrometers Part 1: General techniques

Korean Agency for Technology and Standards (KATS), Spectral Quantitative Analyzer

• KS C 6918-1995 Test methods of fiber-optic spectrum analyzer
• KS C 6918-1995(2020) Test methods of fiber-optic spectrum analyzer
• KS D ISO 22309-2011(2016) Microbeam analysis－Quantitative analysis using energy-dispersive spectrometry(EDS)
• KS D ISO 15472:2003 Surface chemical analysis-X-ray photoelectron spectrometers-Calibration of energy scales
• KS D ISO 22309-2011(2021) Microbeam analysis－Quantitative analysis using energy-dispersive spectrometry(EDS)
• KS D ISO 15632:2018 Microbeam analysis — Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers for use in electron probe microanalysis
• KS D ISO 22489:2012 Microbeam analysis－Electron probe microanalysis－Quantitative point analysis for bulk specimens using wavelength-dispersive x-ray spectroscopy
• KS D ISO 17973:2011 Surface chemical analysis－Medium-resolution Auger electron spectrometers－Calibration of energy scales for elemental analysis
• KS D ISO 19319-2005(2020) Surface chemical analysis－Auger electron spectroscopy and X-ray photoelectron spectroscopy－Determination of lateral resolution, analysis area, and sample area viewed by the analyzer
• KS D ISO 15470:2005 Surface chemical analysis－X-ray photoelectron spectroscopy－Description of selected instrumental performance parameters
• KS D ISO 10701:2002 Steel and iron－Determination of sulfur content－Methylene blue spectrophotometric method
• KS C IEC 61290-5-1-2007(2022) Optical amplifiers－Test methods－Part 5－1：Reflectance parameters －Optical spectrum analyzer method
• KS C IEC 61290-5-1-2007(2017) Optical amplifiers－Test methods－Part 5－1：Reflectance parameters －Optical spectrum analyzer method
• KS D ISO 22309:2011 Microbeam analysis-Quantitative analysis using energy-dispersive spectrometry(EDS)
• KS D ISO 22489:2018 Microbeam analysis — Electron probe microanalysis — Quantitative point analysis for bulk specimens using wavelength dispersive x-ray spectroscopy
• KS D ISO 21270:2005 Surface chemical analysis－X-ray photoelectron and Auger electron spectrometers－Linearity of intensity scale
• KS D ISO 10700:2008 Steel and iron-Determination of manganese content-Flame atomic absorption spectrometric method
• KS D ISO 9647:2002 Steel and iron?Determination of vanadium content — Flame atomic absorption spectrometric method
• KS D ISO 17974:2011 Surface chemical analysis－High-resolution Auger electron spectrometers－Calibration of energy scales for elemental and chemical-state analysis
• KS D ISO 21270-2005(2020) Surface chemical analysis－X-ray photoelectron and Auger electron spectrometers－Linearity of intensity scale
• KS C IEC 61290-3-1-2005(2020) Optical amplifiers－Test methods－Part 3－1：Noise figure parameters－Optical spectrum analyzer method
• KS D ISO 17973-2011(2021) Surface chemical analysis－Medium-resolution Auger electron spectrometers－Calibration of energy scales for elemental analysis
• KS D ISO 14594:2018 Microbeam analysis — Electron probe microanalysis — Guidelines for the determination of experimental parameters for wavelength dispersive spectroscopy
• KS D ISO 15471:2005 Surface chemical analysis－Auger electron spectroscopy－Description of selected instrumental performance parameters
• KS C IEC 61290-3-1:2005 Optical amplifiers－Test methods－Part 3－1：Noise figure parameters－Optical spectrum analyzer method
• KS D ISO 7530-8:2012 Nickel alloys－Flame atomic absorption spectrometric analysis－Part 8：Determination of silicon content
• KS D ISO 7530-7:2012 Nickel alloys－Flame atomic absorption spectrometric analysis－Part 7：Determination of aluminium content
• KS D ISO 7530-4-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 4：Determination of copper content
• KS D ISO 9388-2012(2017) Nickel alloys－Determination of phosphorus content－Molybdenum blue molecular absorption spectrometric method
• KS D ISO 9388-2012(2022) Nickel alloys－Determination of phosphorus content－Molybdenum blue molecular absorption spectrometric method
• KS D ISO 7530-2-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 2：Determination of cobalt content
• KS D ISO 7530-9-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 9：Determination of vanadium content
• KS D ISO 7530-7-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 7：Determination of aluminium content
• KS D ISO 7530-6-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 6：Determination of manganese content
• KS D ISO 7530-3-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 3：Determination of chromium content
• KS D ISO 7530-8-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 8：Determination of silicon content
• KS D ISO 7530-2:2012 Nickel alloys-Flame atomic absorption spectrometric analysis-Part 2:Determination of cobalt content
• KS D ISO 7530-4:2012 Nickel alloys-Flame atomic absorption spectrometric analysis-Part 4:Determination of copper content
• KS D ISO 7530-3:2012 Nickel alloys－Flame atomic absorption spectrometric analysis－Part 3：Determination of chromium content
• KS D ISO 7530-5:2012 Nickel alloys－Flame atomic absorption spectrometric analysis－Part 5：Determination of iron content
• KS D ISO 7530-6:2012 Nickel alloys－Flame atomic absorption spectrometric analysis－Part 6：Determination of manganese content
• KS D ISO 11652-2002(2022) Steel and iron－Determination of cobalt content－Flame atomic absorption spectrometric method
• KS D ISO 7520-2012(2017) Ferronickel－Determination of cobalt content－Flame atomic absorption spectrometric method
• KS D ISO 11652-2002(2017) Steel and iron－Determination of cobalt content－Flame atomic absorption spectrometric method
• KS D ISO 10138-2002(2017) Steel and iron－Determination of chromium content－Flame atomic absorption spectrometric method
• KS D ISO 10138-2002(2022) Steel and iron－Determination of chromium content－Flame atomic absorption spectrometric method
• KS D ISO 18118:2005 Surface chemical analysis－Auger electron spectroscopy and X-ray photoelectron spectroscopy－Guide to the use of experimentally determined relative sensitivity factors for the quantitative analysis of homogeneous materials
• KS C IEC 61290-10-1-2005(2020) Optical amplifiers－Test methods－Part 10－1：Multichannel parameters－Pulse method using an optical switch and optical spectrum analyzer
• KS D ISO 7530-9:2012 Nickel alloys-Flame atomic absorption spectrometric analysis-Part 9:Determination of vanadium content
• KS D ISO 7530-4-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 4：Determination of copper content
• KS D ISO 7530-6-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 6：Determination of manganese content
• KS D ISO 7530-9-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 9：Determination of vanadium content
• KS D ISO 7530-7-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 7：Determination of aluminium content
• KS D ISO 7530-8-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 8：Determination of silicon content
• KS D ISO 7530-2-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 2：Determination of cobalt content
• KS D ISO 7530-5-2012(2017) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 5：Determination of iron content
• KS D ISO 7530-5-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 5：Determination of iron content
• KS D ISO 7530-3-2012(2022) Nickel alloys－Flame atomic absorption spectrometric analysis－Part 3：Determination of chromium content
• KS D ISO 15470-2005(2020) Surface chemical analysis－X-ray photoelectron spectroscopy－Description of selected instrumental performance parameters
• KS D ISO 15632:2012 Microbeam analysis－Instrumental specification for energy dispersive X-ray spectrometers with semiconductor detectors
• KS D 1655-2008(2019) Method for X-ray fluorescence spectrometric analysis of iron and steel
• KS D 1673-2007 Methods for inductively coupled plasma emission spectrochemical analysis of steel

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Spectral Quantitative Analyzer

• GB/T 25481-2010 On-line ultraviolet/visible spectrum analyzer
• GB/T 32198-2015 General Rules for Quantitative Analysis Techniques of Infrared Spectroscopy
• GB/T 25189-2010 Microbeam analysis.Determination method for quantitative analysis parameters of SEM-EDS
• GB/T 29858-2013 Standard guidelines for molecular spectroscopy multivariate calibration quantitative analysis
• GB/T 17359-2012 Microbeam analysis.Quantitative analysis using energy dispersive spectrometry
• GB/T 22571-2008 Surface chemical analysis.X-ray photoelectron spectrometers.Calibration of energy scales
• GB/T 8151.15-2005 Methods for chemical analysis of zinc concentrates-Determination of mercury content-Atomic fluorescence spectrometry method
• GB/T 8152.11-2006 Methods for chemical analysis of lead concentrates. Determination of mercury content. Atomic fluorescence spectrometer method
• GB/T 8152.5-2006 Methods for chemical analysis of lead concentrates. Determination of arsenic content. Atomic fluorescence spectrometer method
• GB/T 17416.2-1998 Method for chemical analysis of Zirconium ores.Determination of Zirconium and Hafnium contents.X-ray fluorescence spectrometric method
• GB/T 4325.3-2013 Methods for chemical analysis of molybdenum.Part 3:Determination of bismuth content.Atomic fluorescence spectrometry
• GB/T 4325.4-2013 Methods for chemical analysis of molybdenum.Part 4:Determination of tin content.Atomic fluorescence spectrometry
• GB/T 4325.5-2013 Methods for chemical analysis of molybdenum.Part 5:Determination of antimony content.Atomic fluorescence spectrometry
• GB/T 4325.6-2013 Methods for chemical analysis of molybdenum.Part 6:Determination of arsenic content.Atomic fluorescence spectrometry
• GB/T 32199-2015 Infrared Spectroscopy Qualitative Analysis Technique General Rules
• GB/T 8156.10-1987 Aluminium fluoride for industrial use--Determination of sulphur content--X-ray fluorescence spectrometric method
• GB/T 21006-2007 Surface chemical analysis.X-ray photoelectron and Auger electron spectrometers.Linearity of intensity scale
• GB/T 4333.8-1988 Methods for chemical analysis of ferrosilicon--The atomic absorption spectrometric method for the determination of calcium content
• GB/T 12689.2-2004 The methods for chemical analysis of zinc and zinc alloys-The determination of arsenic content-The atomic fluorescence spectrometer method
• GB/T 15244-2013 Microbeam analysis.Quantitative analysis of silicate glass by wavelength dispersive X-ray spectrometry and energy dispersive X-ray spectrometry
• GB/T 8220.6-1998 Methods for chemical analysis of bismuth--Determination of lead content--Electrothermal atomic absorption spectrometric method
• GB/T 8220.12-1998 Methods for chemical analysis of bismuth--Determination of nickel content--Electrothermal atomic absorption spectrometric method
• GB/T 8220.4-1998 Methods for chemical analysis of bismuth--Determination of silver content--Flame atomic absorption spectrophotometric method
• GB/T 11066.2-1989 Gold--Determination of silver content--Flame atomic absorption spectometric method
• GB/T 13747.20-1992 Zirconium and zirconium alloys--Determination of hafnium content--Emission spectrographic method
• GB/T 7603-1987 Determination of the aromatic carbon content in mineral insulating oils by infrared spectrum method
• GB/T 11066.3-1989 Gold--Determination of iron content--Flame atomic absorption spectrometric method
• GB/T 14849.10-2016 Methods for chemical analysis of industrial silicon - Part 10: Determination of mercury content by atomic fluorescence spectrometry
• GB/T 6150.17-2022 Methods for chemical analysis of tungsten concentrates—Part 17：Determination of antimony content—Atomic fluorescence spectrometry
• GB/T 12689.9-2004 The methods for chemical analysis of zinc and zinc alloys-The determination of antimony content-The atomic fluorescence spectrometer and the flame atomic absorption spectrometric method
• GB/T 8220.11-1998 Methods for chemical analysis of bismuth--Determination of mercury content--Cold vapour atomic absorption spectrometric method
• GB/T 8220.13-1998 Methods for chemical analysis of bismuth--Determination of silver and cadmium content--Electrothermal atomic absorption spectrometric method
• GB/T 11066.2-2008 Methods for chemical analysis of gold.Determination of silver content.Flame atomic absorption spectrometry
• GB/T 11066.3-2008 Methods for chemical analysis of gold.Determination of iron content.Flame atomic absorption spectrometry
• GB/T 8647.2-2006 The methods for chemical analysis of nickel. Determination of aluminium content. Electrothermal atomic absorption spectrometric method
• GB/T 8647.5-2006 The methods for chemical analysis of nickel. Determination of magnesium content. Flame atomic absorption spectrometric method
• GB/T 11067.2-2006 Methods for chemical analysis of silver. Determination of copper contents. Flame atomic absorption spectrometric method
• GB/T 11067.6-2006 Methods for chemical analysis of silver. Determination of iron contents. Flame atomic absorption spectrometric method
• GB/T 20931.1-2007 Methods for chemical analysis of lithium Determination of potassium content Flame atomic absorption spectrometric method
• GB/T 20931.10-2007 Methods for chemical analysis of lithium Determination of copper content Flame atomic absorption spectrometric method
• GB/T 20931.11-2007 Methods for chemical analysis of lithium Determination of magnesium content Flame atomic absorption spectrometric method
• GB/T 20931.2-2007 Methods for chemical analysis of lithium Determination of sodium content Flame atomic absorption spectrometric method
• GB/T 20931.3-2007 Methods for chemical analysis of lithium Determinationof calcium content Flame atomic absorption spectrometric method
• GB/T 4333.9-1988 Methods for chemical analysis of ferrosilicon--The flame atomic absorption spectrometric method for the determination of aluminium content
• GB/T 15249.5-1994 Crude Gold-Determination of mercury content-Cold atomic absorption spectrometric method
• GB/T 7731.16-1999 Methods for chemical analysis of ferrotungsten-The flame atomic absorption spectrometric method for the determination of manganese content
• GB/T 7731.15-1999 Methods for chemical analysis of ferrotungsten-The flame atomic absorption spectrometric method for the determination of copper content
• GB/T 3253.6-2008 Methods for chemical analysis of antimony and antimony trioxide.Determination of selenium content.Atomic fluorenscence spectrophotometric method
• GB/T 3253.10-2009 Methods for chemical analysis of antimony and antimony trioxide.Determination of mercury content.Atomic fluorescence spectrometric method
• GB/T 3253.7-2009 Methods for chemical analysis of antimony and antimony trioxide.Determination of bismuth content.Atomic fluorescence spectrometric method
• GB/T 23364.1-2009 Methods for chemical analysis of high purity indium oxide.Part 1:Determination of arsenic content.Atomic fluorescence spectrometry
• GB/T 23364.3-2009 Methods for chemical analysis of high purity indium oxide.Part 3:Determination of antimony content.Atomic fluorescenece spectrometry
• GB/T 6150.7-2008 Methods for chemical analysis of tungsten concentrates.Determination of tantalum content and niobium content.Inductively coupled plasma emission spectrometry and spectrophotometry
• GB/T 13748.21-2009 Chemical analysis methods of magnesium and magnesium alloys.Part 21:Determination of elements by photoelectric direct reading atomic emission spectrometry
• GB/T 6150.13-2022 Methods for chemical analysis of tungsten concentrates—Part 13：Determination of arsenic content—Atomic fluorescence spectrometry and the silver diethyldithiocarbamate（DDTC-Ag）spectrophotometry
• GB/T 29732-2013 Surface chemical analysis.Medium resolution Auger electron spectrometers.Calibration of energy scales for elemental analysis
• GB/T 23362.1-2009 Methods for chemical analysis of high purity indium hydroxide.Part 1:Determination of arsenic content.Atomic fluorescence spectrometry
• GB/T 23362.3-2009 Methods for chemical analysis of high purity indium hydroxide.Part 3:Determination of antimony content.Atomic fluorescene spectrometry
• GB/T 14849.5-2010 Chemical analysis of slion metal.Part 5: Determination of elements content.Analysis using an X-ray fluorescence method
• GB/T 14506.28-1993 Silicate rocks. Determination of contents of major and minor elements. X-ray fluorescence spectrometric method
• GB/T 11066.9-2009 Methods for chemical analysis of gold.Determination for arsenic and tin contents.Hydride generation-atomic fluorescence spectrometry

SE-SIS, Spectral Quantitative Analyzer

• SIS SS IEC 714:1983 Electronic measurement equipment - Expression of the properties of spectrum analyzers

ZA-SANS, Spectral Quantitative Analyzer

• SANS 62129:2008 Calibration of optical spectrum analyzers
• SANS 61290-5-1:2007 Optical amplifiers - Test methods Part 5-1: Reflectance parameters - Optical spectrum analyzer method

CZ-CSN, Spectral Quantitative Analyzer

• CSN 35 6535-1983 Electronic measuring instruments. Succesive process spectra analyzers. Nomenclature of pnrameters
• CSN 42 0600 Cast.3-1975 Antimony of high parity. Methods of chemical and spectral analysis. Delermmation of arsenic by photomotric metod
• CSN 42 0600 Cast.5-1975 Antimony of high purity. Methods of chemical and spectral analysis. Dctermination of silver, bismuth. copper, iron. nickel, lead. and tin by spectral method

National Metrological Technical Specifications of the People's Republic of China, Spectral Quantitative Analyzer

• JJF 1133-2005 Calibration Specification of Gold Gauge Utilizing X-ray Fluorescence Spectrometry
• JJF(电子) 37-1982 Calibration Method of BP-9 Broadband Microwave Spectrum Analyzer

Lithuanian Standards Office , Spectral Quantitative Analyzer

• LST EN 62129-2006 Calibration of optical spectrum analyzers (IEC 62129:2006)
• LST EN 62129-2006/AC-2007 Calibration of optical spectrum analyzers (IEC 62129:2006)

German Institute for Standardization, Spectral Quantitative Analyzer

• DIN EN 62129:2007 Calibration of optical spectrum analyzers (IEC 62129:2006); German version EN 62129:2006
• DIN EN 12938:2000 Methods for the analysis of pewter - Determination of alloying and impurity element contents by atomic spectrometry (includes AC:2000); German version EN 12938:1999 + AC:2000
• DIN ISO 15632:2022-09 Microbeam analysis - Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers (EDS) for use with a scanning electron microscope (SEM) or an electron probe microanalyser (EPMA) (ISO 15632:2...
• DIN EN 62129-1:2016 Calibration of wavelength/optical frequency measurement instruments - Part 1: Optical spectrum analyzers (IEC 62129-1:2016); German version EN 62129-1:2016
• DIN 51009:2013-11 Optical atomic spectral analysis - Principles and definitions
• DIN EN 62129 Berichtigung 1:2008 Calibration of optical spectrum analyzers (IEC 62129:2006); German version EN 62129:2006, Corrigendum to DIN EN 62129:2007-01; German version CENELEC-Cor. :2006 to EN 62129:2006
• DIN 51009:2013 Optical atomic spectral analysis - Principles and definitions
• DIN 51009:2001 Optical atomic spectral analysis - Principles and definitions
• DIN 51820:2013-12 Testing of lubricants - Analysis of greases by infrared spectrometer - Recording and interpretation of an infrared spectrum / Note: Applies in conjunction with DIN 51451 (2004-09).
• DIN ISO 15472:2020-05 Surface chemical analysis - X-ray photoelectron spectrometers - Calibration of energy scales (ISO 15472:2010); Text in English
• DIN EN 61290-5-1:2007 Optical amplifiers - Test methods - Part 5-1: Reflectance parameters - Optical spectrum analyzer method (IEC 61290-5-1:2006); German version EN 61290-5-1:2006
• DIN ISO 11505:2018-02 Surface chemical analysis - General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry (ISO 11505:2012)
• DIN EN ISO 23674:2022 Cosmetics - Analytical methods - Direct determination of traces of mercury in cosmetics by thermal decomposition and atomic absorption spectrometry (mercury analyser) (ISO 23674:2022)
• DIN EN ISO 10700:1996 Steel and iron - Determination of manganese content - Flame atomic absorption spectrometric method (ISO 10700:1994); German version EN ISO 10700:1995
• DIN EN 61290-5-1:2007-03 Optical amplifiers - Test methods - Part 5-1: Reflectance parameters - Optical spectrum analyzer method (IEC 61290-5-1:2006); German version EN 61290-5-1:2006 / Note: DIN EN 61290-5-1 (2001-06) remains valid alongside this standard until 2009-06-01.
• DIN 51577-4:1994 Testing of mineral oil hydrocarbons and similar products; determination of chlorine and bromine content; analysis by energy dispersive X-ray spectrometry with low cost instruments
• DIN ISO 22309:2015 Microbeam analysis - Quantitative analysis using energy-dispersive spectrometry (EDS) for elements with an atomic number of 11 (Na) or above (ISO 22309:2011)
• DIN EN 61290-3-1:2004 Optical amplifiers - Test methods - Part 3-1: Noise figure parameters - Optical spectrum analyzer method (IEC 61290-3-1:2003); German version EN 61290-3-1:2003
• DIN EN 61290-3-1:2004-05 Optical amplifiers - Test methods - Part 3-1: Noise figure parameters - Optical spectrum analyzer method (IEC 61290-3-1:2003); German version EN 61290-3-1:2003
• DIN ISO 11505:2018 Surface chemical analysis - General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry (ISO 11505:2012)
• DIN EN 61290-1-1:2007 Optical amplifiers - Test methods - Part 1-1: Power and gain parameters - Optical spectrum analyzer method (IEC 61290-1-1:2006); German version EN 61290-1-1:2006
• DIN ISO 16129:2020-11 Surface chemical analysis - X-ray photoelectron spectroscopy - Procedures for assessing the day-to-day performance of an X-ray photoelectron spectrometer (ISO 16129:2018); Text in English

Professional Standard - Electricity, Spectral Quantitative Analyzer

• DL/T 386-2010 Calibration for second derivative flame atomic emission spectrometer

Professional Standard - Nuclear Industry, Spectral Quantitative Analyzer

• EJ/T 823-1994 Laser fluorescence trace uranium analyzer
• EJ/T 823-2016 Fluorescent Trace Uranium Analyzer
• EJ/T 633-1992 Tube Excitation Energy Dispersive X-ray Fluorescence Analyzer
• EJ/T 684-2016 Portable Energy Dispersive X-ray Fluorescence Analyzer

American Society for Testing and Materials (ASTM), Spectral Quantitative Analyzer

• ASTM E168-92 Standard Practice for General Techniques of Infrared Quantitative Analysis
• ASTM D8340-20a Standard Practice for Performance-Based Qualification of Spectroscopic Analyzer Systems
• ASTM D8340-20 Standard Practice for Performance-Based Qualification of Spectroscopic Analyzer Systems
• ASTM D8340-22 Standard Practice for Performance-Based Qualification of Spectroscopic Analyzer Systems
• ASTM D8340-21 Standard Practice for Performance-Based Qualification of Spectroscopic Analyzer Systems
• ASTM D7751-12 Standard Test Method for Determination of Additive Elements in Lubricating Oils by EDXRF Analysis
• ASTM E1009-95(2000) Standard Practice for Evaluating an Optical Emission Vacuum Spectrometer to Analyze Carbon and Low-Alloy Steel
• ASTM E2056-04(2010) Standard Practice for Qualifying Spectrometers and Spectrophotometers for Use in Multivariate Analyses, Calibrated Using Surrogate Mixtures
• ASTM E2056-04(2016) Standard Practice for Qualifying Spectrometers and Spectrophotometers for Use in Multivariate Analyses, Calibrated Using Surrogate Mixtures
• ASTM E1097-97 Standard Guide for Direct Current Plasma Emission Spectrometry Analysis
• ASTM E10-08 Standard Test Method for Brinell Hardness of Metallic Materials
• ASTM E10-15 Standard Test Method for Brinell Hardness of Metallic Materials
• ASTM D7941/D7941M-23 Standard Test Method for Hydrogen Purity Analysis Using a Continuous Wave Cavity Ring-Down Spectroscopy Analyzer
• ASTM D6122-21 Standard Practice for Validation of the Performance of Multivariate Online, At-Line, Field and Laboratory Infrared Spectrophotometer, and Raman Spectrometer Based Analyzer Systems
• ASTM D6122-20a Standard Practice for Validation of the Performance of Multivariate Online, At-Line, Field and Laboratory Infrared Spectrophotometer, and Raman Spectrometer Based Analyzer Systems
• ASTM D6122-20 Standard Practice for Validation of the Performance of Multivariate Online, At-Line, Field and Laboratory Infrared Spectrophotometer, and Raman Spectrometer Based Analyzer Systems
• ASTM D6122-22 Standard Practice for Validation of the Performance of Multivariate Online, At-Line, Field and Laboratory Infrared Spectrophotometer, and Raman Spectrometer Based Analyzer Systems
• ASTM D7941/D7941M-14 Standard Test Method for Hydrogen Purity Analysis Using a Continuous Wave Cavity Ring-Down Spectroscopy Analyzer

Professional Standard - Electron, Spectral Quantitative Analyzer

• SJ/Z 3206.11-1989 General rules for analysis of quantities of emision spectrum
• SJ/Z 3206.3-1989 Instrument and its performance requirements for determination of emision spectrum
• SJ 20251-1993 Verification reguation of model YH4020/YH4021/YH4022 spectrum analyzers
• SJ 20250-1993 Verification reguation of model HP8590A RF spectrum analyzers
• SJ 20249-1993 Verification reguation of model BP28A LF spectrum analyzers
• SJ/Z 3206.10-1989 General rules for analysis of properties of emision spectrum
• SJ 20248-1993 Verification reguation of model ED4070 dual-channel

IEC - International Electrotechnical Commission, Spectral Quantitative Analyzer

• PAS 62129-2004 Calibration of optical spectrum analyzers (Edition 1.0;: 2006)

RU-GOST R, Spectral Quantitative Analyzer

• GOST 4.450-1986 Product-quality index system. Instruments for spectral analysis. Nomenclature of indices
• GOST 1367.1-1983 Antimony. Spectral method for the determination of impurities without preliminary concentration
• GOST 30508-1997 Lead concentrates. Method of spectrum analysis
• GOST 4.361-1985 Product-quality index system. Mass-spectrometric analysers. Index nomenclature
• GOST 22091.8-1984 X-ray devices. Method of measuring spectral structure and relative spectrum contamination
• GOST 20461-1975 Gaseous helium. Method for determination of impurities volume fraction by emission spectral analysis
• GOST 31870-2012 Drinking water. Determination of elements content by atomic spectrometry methods
• GOST 26874-1986 Ionizing radiation power spectrometers. Methods of basic parameters measurement
• GOST 12645.8-1982 Indium. Method of chemical and spectral analysis for the determination of tin
• GOST R EN ISO 14596-2008 Petroleum products. Determination of sulfur content by method of wavelength-dispersive X-ray fluorescence spectrometry
• GOST R ISO 7530-2-2016 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 2. Determination of cobalt content
• GOST R ISO 7530-3-2016 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 3. Determination of chromium content
• GOST R ISO 7530-9-2017 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 9. Determination of vanadium content
• GOST 4.164-1985 Product-quality index system. Radio spectrometrical analysers. Nomenclature of indices

KR-KS, Spectral Quantitative Analyzer

• KS D ISO 15632-2018 Microbeam analysis — Selected instrumental performance parameters for the specification and checking of energy-dispersive X-ray spectrometers for use in electron probe microanalysis
• KS D ISO 14707-2003(2023)
• KS D ISO 15472-2003(2023)
• KS D ISO 22489-2018 Microbeam analysis — Electron probe microanalysis — Quantitative point analysis for bulk specimens using wavelength dispersive x-ray spectroscopy
• KS D ISO 14594-2018 Microbeam analysis — Electron probe microanalysis — Guidelines for the determination of experimental parameters for wavelength dispersive spectroscopy
• KS D ISO 22489-2018(2023) Microbeam analysis — Electron probe microanalysis — Quantitative point analysis for bulk specimens using wavelength dispersive x-ray spectroscopy
• KS D ISO 14594-2018(2023) Microbeam analysis — Electron probe microanalysis — Guidelines for the determination of experimental parameters for wavelength dispersive spectroscopy

Indonesia Standards, Spectral Quantitative Analyzer

• SNI 06-6596-2001 Water treatment for metal analysis by atomic absorption spectrophotometers
• SNI 13-6986-2004 The determination of metal iron content from reduced iron ores by magnetic analyzers

Group Standards of the People's Republic of China, Spectral Quantitative Analyzer

• T/CSTM 00964-2022 General rules for performance evaluation of atomic spectrometer
• T/ZFB 0050-2023 Textiles—Quantitative analysis of Polyester-cotton blended fabric—Hyperspectral method
• T/NAIA 0128-2022 Rapid Determination of Aluminum Hydroxide Determination of Element Content by X-ray Fluorescence Spectroscopic Analysis (Tablet)

Association of German Mechanical Engineers, Spectral Quantitative Analyzer

• VDI/VDE/DGQ/DKD 2622 Blatt 11-2003 Calibration of measurement equipments for electrical quantities - Spectrum analyzers

Professional Standard - Textile, Spectral Quantitative Analyzer

• FZ/T 01144-2018 Near Infrared Spectroscopy for Quantitative Analysis of Textile Fibers

IN-BIS, Spectral Quantitative Analyzer

• IS 12803-1989

Military Standard of the People's Republic of China-Commission of Science,Technology and Industry for National Defence, Spectral Quantitative Analyzer

• GJB/J 5859-2006 Verification regulation for broadband spectrum analyzer

Professional Standard - Agriculture, Spectral Quantitative Analyzer

• JJG(教委) 021-1996 Verification Regulations for Analytical Gas Chromatograph

Military Standard of the People's Republic of China-General Armament Department, Spectral Quantitative Analyzer

• GJB 8805-2015 Calibration procedures for wideband spectrum analyzers

Shaanxi Provincial Standard of the People's Republic of China, Spectral Quantitative Analyzer

• DB61/T 1520-2021 Specification for performance evaluation of real-time fluorescence quantitative PCR analyzer

Professional Standard - Non-ferrous Metal, Spectral Quantitative Analyzer

• YS/T 536.7-2009 Methods for chemical analysis of bismuth.Determination of arsenic content.Atomic fluorescence spectrometric method
• YS/T 536.11-2009 Methods for chemical analysis of bismuth.Determination of mercury content.Atomic fluorescence spectrometric method
• YS/T 555.4-2009 Methods for chemical analysis of molybdenum concentrate.Determination of tin content.Atomic fluorescence spectrometry
• YS/T 35.3-1992 Determination of Bismuth by Emission Spectrometry by Chemical Analysis Method of High Purity Antimony
• YS/T 872-2013 Methods for chemical analysis gallium.Determination of mercury in industrial gallium.Atomic fluorescence spectrometer method
• YS/T 555.3-2009 Methods for chemical analysis of molybdenum concentrate.Determination of arsenic conten.Atomic fluorescence spectrometry
• YS/T 710.4-2009 Method for chemical analysis of cobalt oxide.Part 4:Determination of arsenic content.Atomic fluorescence spectrometry
• YS/T 556.7-2009 Methods for chemical analysis of antimony concentrates.Part 7:Determination of mercury content.Atomic fluorescence spectrometry
• YS/T 229.2-2013 Methods for chemical analysis of high pure lead.Part 2:Determination of arsenic content.Atomic fluorescence spectrometry
• YS/T 229.3-2013 Methods for chemical analysis of high pure lead.Part 3:Determination of antimony content.Atomic fluorescence spectrometry
• YS/T 74.4-1994 Methods for chemical analysis of cadmium - Determination of lead content by flame atomic absorption spectrometry
• YS/T 74.6-1994 Methods for chemical analysis of cadmium - Determination of zinc content by flame atomic absorption spectrometry
• YS/T 536.4-2006 Methods of chemical analysis of bismuth - Determination of silver content by flame atomic absorption spectrometry
• YS/T 536.6-2006 Bismuth Chemical Analysis Method Electrothermal Atomic Absorption Spectrometry Determination of Lead
• YS/T 536.12-2006 Bismuth Chemical Analysis Method Electrothermal Atomic Absorption Spectrometry Determination of Nickel Content
• YS/T 703-2014 Method for chemical analysis of Limstone.Determination of element contents.X-ray fluorescence spectrometric method
• YS/T 273.14-2008 Chemical analysis methods and determination of physical performance of synthetic cryolite.Part 14: X-ray fluorescence spectrometric method for the determination of elements content
• YS/T 581.10-2006 Determination of chemical contents and physical properties of aluminium fluoride Part 10:Determination of sulphur content by X-ray fluorescence spectrometric method
• YS/T 273.11-2006 Chemical analysis methods and physical properties of cryolite. Part 11:Determination of sulphur content by X-ray fluorescence spectrometric method
• YS/T 536.2-2009 Methods for chemical analysis of bismuth.Determination of iron content.Electrothermal atomic absorption spectrometric method
• YS/T 536.6-2009 Methods for chemical analysis of bismuth.Determination of lead content.Electrothermal atomic absorption spectrometric method
• YS/T 536.12-2009 Methods for chemical analysis of bismuth.Determination of nickel content.Electrothermal atomic absorption spectrometric method
• YS/T 536.13-2009 Methods for chemical analysis of bismuth.Determination of cadmium content.Electrothermal atomic absorption spectrometric method
• YS/T 536.11-2006 Method for chemical analysis of bismuth Determination of mercury by cold vapor atomic absorption spectrometry
• YS/T 536.13-2006 Bismuth Chemical Analysis Method Electrothermal Atomic Absorption Spectrometry Determination of Silver and Cadmium
• YS/T 461.6-2003 The methods for chemical analysis of lead and zinc bulk concentrates-The determination of mercury content-The atomic fluorescence spectrometry method
• YS/T 536.4-2009 Methods for chemical analysis of bismuth.Determination of silver content.Flame atomic absorption spectrophotmetric method and electrothermal atomic absorption spectrometric method
• YS/T 581.16-2008 Chemical analysis methods and determination of physical performance of industrial aluminium fluoride.Part 16: X-ray fluorescence spectrometric method for the determination of elements content
• YS/T 575.23-2009 Method for chemical analysis of aluminum ores.Part 23:Determination of element contents X-ray fluorescence spectrometric method
• YS/T 226.1-2009 Methods for chemical analysis of selenium.Part 1:Determination of bismuth content.Hydride generation-atomic fluorescence spectrometry
• YS/T 226.2-2009 Methods for chemical analysis of selenium.Part 2:Determination of antimony content-Hydride generation-atomic fluorescence spectrometry
• YS/T 74.1-2010 Methods for chemical analysis of cadmium- Part 1: Determination of arsenic content- Hydride generation-atomic fluorescence spectrometry
• YS/T 74.2-2010 Methods for chemical analysis of cadmium- Part 2: Determination of antimony content- Hydride generation-atomic fluorescence spectrometry
• YS/T 227.1-2010 Methods for chemical analysis of tellurium-Part 1: Determination of bismuth content-Hydride generation-atomic fluorescence spectrometry
• YS/T 227.10-2010 Methods for chemical analysis of tellurium-Part 10: Determination of arsenic content- Hydride generation-atomic fluorescence spectrometry
• YS/T 74.9-2010 Mehtods for chemical analysis of cadmium- Part 9:Determination of tin content- Hydride generation-atomic fluorescence spectrometry
• YS/T 461.6-2013 Methods for chemical analysis of lead and zinc bulk concentrates.Part 6:The determination of mercury content.Atomic fluorescence spectrometry
• YS/T 276.1-2011 Methods for chemical analysis of indium.Part 1:Determination of arsenic content.Hydride generation-atomic fluorescence spectrometry
• YS/T 1605.5-2023 Methods for chemical analysis of roasted molybdenum concentrate— Part 5: Determination of antimony content— Atomic fluorescence spectrometry
• YS/T 1605.4-2023 Methods for chemical analysis of roasted molybdenum concentrate— Part 4: Determination of tin content— Atomic fluorescence spectrometry

中华人民共和国国家质量监督检验检疫总局、中国国家标准化管理委员会, Spectral Quantitative Analyzer

• GB/T 22571-2017 Surface chemical analysis—X-ray photoelectron spectrometers—Calibration of energy scales
• GB/T 32997-2016 Surface chemical analysis—General procedures for quantitative compositional depth profiling by glow discharge optical emission spectrometry
• GB/T 1819.17-2017 Methods for chemical analysis of tin concentrates—Part 17：Determination of mercury content—Atomic fluorescence spectrometric method

SAE - SAE International, Spectral Quantitative Analyzer

• SAE AIR1255-1971 Spectrum Analyzers for Electromagnetic Interference Measurements

Society of Automotive Engineers (SAE), Spectral Quantitative Analyzer

• SAE AIR1255-2009 Spectrum Analyzers for Electromagnetic Interference Measurements

RO-ASRO, Spectral Quantitative Analyzer

• STAS 10274/19-1984 SOLID FUELS Ash analysis Spectrum quantitative determination of titanium, calcium, magnezium and manganese
• STAS 11564-1982 RAPID STEELS FOR TOOLS Spectrographic analysis in emission
• STAS 11607-1981 LOW AND MEDIUM ALLOYED CARBON STEELS Spectrographic analysis
• STAS SR ISO 7530-4:1995 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 4; Determination of copper content
• STAS SR ISO 7530-2:1995 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 2: Determination of cobalt content
• STAS SR ISO 7530-3:1995 Nickel alloys. Flame atomic absorption spectrometric analysis. Part 3: Determination of chromium content

YU-JUS, Spectral Quantitative Analyzer

• JUS C.A1.650-1987 Methodes of chemical analysis of silver. Determination of impurities contents. Spectrographic metod".
• JUS C.A1.237-1990 Methods for chemical analysis of cadmium. Determination of silver content. Flame atomic absorption spectrometric method
• JUS C.A1.235-1990 Metbods for cbemical aualysis of cadmium. Determination of copper content. Flame atomic absorption svectrometric metbo?
• JUS C.A1.236-1990 Hethods for chemical saalysis of cadmium. Determination of lead content. Fla?e atomic absorption spectrometric method
• JUS C.A1.238-1990 Metha?s for chemical analysis of cadmium. Determination of zine content. Flame atomic absorption spectroinetric method

GOSTR, Spectral Quantitative Analyzer

• GOST R 57987-2017 Polymer composites. Infrared spectroscopy. Multivariate quantitative analysis

Standard Association of Australia （SAA）, Spectral Quantitative Analyzer

• AS ISO 15470:2006 Surface chemical analysis - X-ray photoelectron spectroscopy - Description of selected instrumental performance parameters
• AS 3587.6:1998 Ferroalloys - Chemical analysis - Determination of phosphorus content- Spectrophotometric method

Professional Standard - Aviation, Spectral Quantitative Analyzer

• HB 5219.11-1998 Chemical Analysis Methods of Magnesium Alloys - Determination of Nickel Content by Atomic Absorption Spectrometry
• HB 5219.13-1998 Magnesium Alloy Chemical Analysis Methods Atomic Absorption Spectroscopic Analysis Determination of Zinc Content
• HB 5219.20-1998 Methods of chemical analysis of magnesium alloys - Determination of silver content by atomic absorption spectrometry
• HB 5219.3-1998 Methods of chemical analysis of magnesium alloys - Determination of copper content by atomic absorption spectrometry
• HB 5219.8-1998 Methods of chemical analysis of magnesium alloys - Determination of manganese content by atomic absorption spectrometry
• HB 5219.5-1998 Methods of chemical analysis of magnesium alloys - Determination of iron content by atomic absorption spectrometry
• HB 7716.10-2002 Spectrometric analysis of titanium alloys Part 10:Determination of trace manganese content-Flame atomic absorption spectrometric method
• HB 7716.8-2002 Spectrometric analysis of titanium alloys Part 8:Determination of trace copper content-Flame atomic absorption spectrometric method
• HB 7716.5-2002 Spectrometric analysis of titanium alloys Part 5:Determination of trace molybdenum content-Flame atomic absorption spectrometric method
• HB 6731.1-1993 Determination of Copper Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.9-1993 Determination of Chromium Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.4-1993 Determination of Lead Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.5-1993 Determination of Cadmium Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.6-1993 Determination of Iron Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.7-1993 Determination of Manganese Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.8-1993 Determination of Nickel Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.10-1993 Determination of Vanadium Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.3-1993 Determination of Zinc Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 6731.1-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 1:Determination of copper content by flame atomic absorption spectrometric method
• HB 6731.2-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 2:Determination of magnesium content by flame atomic absorption spectrometric method
• HB 6731.3-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 1:Determination of zinc content by flame atomic absorption spectrometric method
• HB 6731.4-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 4:Determination of lead content by flame atomic absorption spectrometric method
• HB 6731.5-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 5:Determination of cadmium content by flame atomic absorption spectrometric method
• HB 6731.6-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 6:Determination of iron content by flame atomic absorption spectrometric method
• HB 6731.7-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 7:Determination of manganese content by flame atomic absorption spectrometric method
• HB 6731.8-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 8:Determination of nickel content by flame atomic absorption spectrometric method
• HB 6731.9-2005 Mtehods for spectromertic analysis of aluminium alloys--Part 9:Determination of chrome content by flame atomic absorption spectrometric method
• HB 7716.7-2002 Spectrometric analysis of titanium alloys Part 7:Determination of copper content-Flame atomic absorption spectrometric method
• HB 7716.9-2002 Spectrometric analysis of titanium alloys Part 9:Determination of manganese content-Flame atomic absorption spectrometric method
• HB 7716.11-2002 Spectrometric analysis of titanium alloys Part 11:Determination of iron content-Flame atomic absorption spectrometric method
• HB 7716.12-2002 Spectrometric analysis of titanium alloys Part 12:Determination of silicon content-Flame atomic absorption spectrometric method
• HB 7716.1-2002 Spectrometric analysis of titanium alloys Part 1:Determination of aluminum content-Flame atomic absorption spectrometric method
• HB 7716.2-2002 Spectrometric analysis of titanium alloys Part 2:Determination of vanadium content-Flame atomic absorption spectrometric method
• HB 7716.3-2002 Spectrometric analysis of titanium alloys Part 3:Determination of chromium content-Flame atomic absorption spectrometric method
• HB 7716.4-2002 Spectrometric analysis of titanium alloys Part 4:Determination of molybdenum content-Flame atomic absorption spectrometric method
• HB 7716.6-2002 Spectrometric analysis of titanium alloys Part 6:Determination of tin content-Flame atomic absorption spectrometric method
• HB 6731.2-1993 Determination of Magnesium Content in Aluminum Alloys by Atomic Absorption Spectrometry
• HB 7716.14-2002 Spectrometric analysis of titanium alloys Part 14:Determination of yttrium content-Inductively coupled plasma atomic emission spectrometric method

国家市场监督管理总局、中国国家标准化管理委员会, Spectral Quantitative Analyzer

• GB/T 37969-2019 Standard guidelines for near infrared qualitative analysis
• GB/T 29732-2021 Surface chemical analysis—Medium resolution auger electron spectrometers—Calibration of energy scales for elemental analysis

Professional Standard - Chemical Industry, Spectral Quantitative Analyzer

• HG/T 4376-2012 On line laser trace moisture analyzer for chemical industry
• HG/T 2955-1989(1997) Rules for drafting molecular absorption spectrometry analysis standards

工业和信息化部, Spectral Quantitative Analyzer

• YS/T 1033-2015 Determination of element content of dry anti-seepage materials by X-ray fluorescence spectrometry
• YS/T 1381-2020 Methods for chemical analysis of rhodium compounds - Determination of arsenic content Atomic fluorescence spectrometry
• YS/T 1341.6-2019 Methods of chemical analysis of crude zinc Part 6: Determination of arsenic content by atomic fluorescence spectrometry
• YS/T 1341.7-2019 Methods of chemical analysis of crude zinc Part 7: Determination of antimony content Atomic fluorescence spectrometry
• YS/T 1341.8-2019 Methods of chemical analysis of crude zinc Part 8: Determination of tin content Atomic fluorescence spectrometry
• YS/T 445.13-2019 Methods of chemical analysis of silver concentrates Part 13: Determination of mercury content by atomic fluorescence spectrometry
• YS/T 1171.7-2017 Methods for chemical analysis of recycled zinc raw materials Part 7: Determination of arsenic and antimony amounts Atomic fluorescence spectrometry
• YS/T 1171.8-2017 Methods for chemical analysis of recycled zinc raw materials Part 8: Determination of mercury content by atomic fluorescence spectrometry and cold atomic absorption spectrometry

AT-ON, Spectral Quantitative Analyzer

• OENORM EN ISO 23674:2021 Cosmetics - Analytical methods - Direct determination of traces of mercury in cosmetics by thermal decomposition - Atomic absorption spectrometry (mercury analyzer) (ISO/DIS 23674:2021)

Professional Standard - Geology, Spectral Quantitative Analyzer

• DZ/T 0064.81-2021 Methods of Analytical Groundwater Quality Part 81: Determination of Mercury Amounts by Atomic Fluorescence Spectrometry

未注明发布机构, Spectral Quantitative Analyzer

• BS ISO 21270:2004(2010) Surface chemical analysis — X - ray photoelectron and Auger electron spectrometers — Linearity of intensity scale
• BS EN 61290-3-1:2003(2004) Optical amplifiers — Test methods — Part 3 - 1 : Noise figure parameters — Optical spectrum analyzer method

Shanxi Provincial Standard of the People's Republic of China, Spectral Quantitative Analyzer

• DB1404/T 18-2021 Inspection and testing laboratory instrument analysis method validation requirements Spectroscopy

CENELEC - European Committee for Electrotechnical Standardization, Spectral Quantitative Analyzer

• EN 61290-2-1:1998 Optical Fibre Amplifiers - Basic Specification Part 2-1: Test Methods for Optical Power Parameters Optical Spectrum Analyzer
• EN 61290-5-1:2000 Optical Fibre Amplifiers - Basic Specification - Part 5-1: Test Methods for Reflectance Parameters - Optical Spectrum Analyser

VN-TCVN, Spectral Quantitative Analyzer

• TCVN 6061-2009 Beer.Determination of colour by spectrophotometric method

Professional Standard - Forestry, Spectral Quantitative Analyzer

• LY/T 2053-2012 Standard method for near infrared qualitative analysis of Wood
• LY/T2053-2012 Standard method for mear infrarde qualitative analysis of wood

NL-NEN, Spectral Quantitative Analyzer

• NEN 6228-1985 Chemical analysis of iron and steel - Determination of the tin content in iron and steel by atomic absorption spectrometry

NO-SN, Spectral Quantitative Analyzer

• NS 4783-1988 Water analysis - Metal content of biological material determined by atomic absorption spectrometry

Professional Standard - Petroleum, Spectral Quantitative Analyzer

• SY/T 6189-1996 Quantitative Analysis Method of Rock Mineral Energy Spectrum
• SY/T 6189-2018 Quantitative Analysis Method of Rock Mineral Energy Spectrum

Professional Standard - Energy, Spectral Quantitative Analyzer

• NB/SH/T 0940-2016 Test method for the analysis of in-use lubricants using a specific 4-in-1 tester (Atomic Emission Spectroscopy, Infrared Spectroscopy, Viscosity and Laser Particle Counter)

国家能源局, Spectral Quantitative Analyzer

• SH/T 0940-2016 Test methods for analyzing in-service lubricants using specific four-in-one testers (atomic emission spectrometry, infrared spectroscopy, viscosity and laser particle counter)

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