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The working principle of the energy spectrometer

The working principle of the energy spectrometer, Total:162 items.

In the international standard classification, The working principle of the energy spectrometer involves: Electricity. Magnetism. Electrical and magnetic measurements, Optics and optical measurements, Lubricants, industrial oils and related products, Company organization and management, Analytical chemistry, Air quality, Occupational safety. Industrial hygiene, On-board equipment and instruments, Petroleum products in general, Nuclear energy engineering, Applications of information technology, Environmental testing, Mechanical testing, Fuels, Paint ingredients, Sterilization and disinfection, Electrical and electronic testing, Astronomy. Geodesy. Geography, Industrial automation systems.


Professional Standard - Electron, The working principle of the energy spectrometer

  • SJ/T 10714-1996 Standard practice for checking the operation characteristics of X-ray photoelectron spectrometers

American Society for Testing and Materials (ASTM), The working principle of the energy spectrometer

  • ASTM E902-94(1999) Standard Practice for Checking the Operating Characteristics of X-Ray Photoelectron Spectrometers
  • ASTM D6621-00(2012) Standard Practice for Performance Testing of Process Analyzers for Aromatic Hydrocarbon Materials
  • ASTM D6621-00 Standard Practice for Performance Testing of Process Analyzers for Aromatic Hydrocarbon Materials
  • ASTM D6621-00(2006)e1 Standard Practice for Performance Testing of Process Analyzers for Aromatic Hydrocarbon Materials
  • ASTM D4185-06 Standard Practice for Measurement of Metals in Workplace Atmospheres by Flame Atomic Absorption Spectrophotometry
  • ASTM E2120-10 Standard Practice for Performance Evaluation of the Portable X-Ray Fluorescence Spectrometer for the Measurement of Lead in Paint Films
  • ASTM D6785-20 Standard Test Method for Determination of Lead in Workplace Air Using Flame or Graphite Furnace Atomic Absorption Spectrometry
  • ASTM D6785-02 Standard Test Method for Determination of Lead in Workplace Air Using Flame or Graphite Furnace Atomic Absorption Spectrometry
  • ASTM D6785-13 Standard Test Method for Determination of Lead in Workplace Air Using Flame or Graphite Furnace Atomic Absorption Spectrometry
  • ASTM E1944-98(2002) Standard Practice for Describing and Measuring Performance of Laboratory Fourier Transform Near-Infrared (FT-NIR) Spectrometers: Level Zero and Level One Tests
  • ASTM E1944-98 Standard Practice for Describing and Measuring Performance of Laboratory Fourier Transform Near-Infrared (FT-NIR) Spectrometers: Level Zero and Level One Tests
  • ASTM E1944-98(2013) Standard Practice for Describing and Measuring Performance of Laboratory Fourier Transform Near-Infrared (FT-NIR) Spectrometers: Level Zero and Level One Tests
  • ASTM D4856-11 Standard Test Method for Determination of Sulfuric Acid Mist in Workplace Atmospheres Collected on Mixed Cellulose Ester Filters (Ion Chromatographic Analysis)

German Institute for Standardization, The working principle of the energy spectrometer

  • DIN 51395-1:1999 Testing of metal working fluids - Testing in the VSI foam analyzer - Part 1: General working principles
  • DIN 51451:2020-02 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
  • DIN 51350-1:1977 Testing of lubricants; testing in the Shell-four-ball tester, general working principles
  • DIN 51451:2004 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
  • DIN 51451:2020 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles
  • DIN 51834-1:2010 Testing of lubricants - Tribological test in the translatory oscillation apparatus - Part 1: General working principles
  • DIN 51834-1:2004 Testing of lubricants - Tribological test in the translatory oscillation apparatus - Part 1: General working principles
  • DIN 51425:2004 Testing of mineral oil hydrocarbons and similar materials - Analysis by high pressure liquid chromatography - General working principles
  • DIN EN 61010-2-061:2004 Safety requirements for electrical equipment for measurement, control and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization (IEC 61010-2-061:2003); German version EN 61010-2-06
  • DIN 51405:2004 Testing of mineral oil hydrocarbons, similar liquids and solvents for paints and varnishes - Analysis by gas chromatography - General working principles
  • DIN 51819-1:2016 Testing of lubricants - Mechanical-dynamic testing in the roller bearing test apparatus FE8 - Part 1: General working principles
  • DIN 51819-1:1999 Testing of lubricants - Mechanical-dynamic testing in the roller bearing test apparatus FE8 - Part 1: General working principles
  • DIN 51405:2004-01 Testing of mineral oil hydrocarbons, similar liquids and solvents for paints and varnishes - Analysis by gas chromatography - General working principles
  • DIN EN 61010-2-061:2016 Safety requirements for electrical equipment for measurement, control and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization (IEC 61010-2-061:2015); German version EN 61010-2-06
  • DIN 51451:2023-10 Testing of petroleum products and related products - Analysis by infrared spectrometry - General working principles / Note: Date of issue 2023-08-25*Intended as replacement for DIN 51451 (2020-02).

AT-ON, The working principle of the energy spectrometer

  • ONORM A 6756-1995 Value analysis (VA) / Value engineering (VE) - functional analysis - Principles and methodology of VA/VE functional approach and work

Standard Association of Australia (SAA), The working principle of the energy spectrometer

  • AS 2134.1:1999 Recommended practice for chemical analysis by atomic absorption spectrometry - Flame atomic absorption spectrometry

ASHRAE - American Society of Heating@ Refrigerating and Air-Conditioning Engineers@ Inc., The working principle of the energy spectrometer

  • ASHRAE AT-96-1-1996 Commissioning as a Prototype Tool for Energy Savings and Special Facilities

Professional Standard - Aviation, The working principle of the energy spectrometer

  • HB 20094.3-2012 Test method for determination of wear metals in operating liquid for aviation.Part 3: Energy dispersion X-ray fluorescence spectrometry
  • HB 20094.1-2012 Test method for determination of wear metals in operating liquid for aviation.Part 1: Rotating disc electrode atomic emission spectrometry
  • HB 20094.4-2012 Test method for determination of wear metals in operating liquid for aviation.Part 4: Scanning electron microscopy and energy dispersive spectrometry
  • HB 20094.2-2012 Test method for determination of wear metals in operating liquid for aviation.Part 2: Inductively coupled plasma automic emission spectrometry (ICP-AES)

HU-MSZT, The working principle of the energy spectrometer

Danish Standards Foundation, The working principle of the energy spectrometer

  • DS/ISO 17733:2007 Workplace air - Determination of mercury and inorganic mercury compounds - Method by cold vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • DS/EN 61010-2-061:2005 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • DS/IEC/TR 61010-3-061:2003 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 3-061: Conformity verification report for IEC 61010-2-061, Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization

Association Francaise de Normalisation, The working principle of the energy spectrometer

  • NF X43-205*NF ISO 17733:2016 Workplace air - Determination of mercury and inorganic mercury compounds - Method by cold-vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • NF ISO 17733:2016 Air des lieux de travail - Détermination du mercure et des composés inorganiques de mercure - Méthode par spectrométrie d'absorption atomique ou spectrométrie de fluorescence atomique de la vapeur froide
  • FD X43-102*FD ISO 8518:2002 Workplace air - Determination of particulate lead and lead compounds - Flame or electrothermal atomic absorption spectrometric method
  • FD ISO 8518:2002 Air des lieux de travail - Dosage du plomb particulaire et des composés particulaires du plomb - Méthode par spectrométrie d'absorption atomique dans la flamme ou méthode par spectrométrie d'absorption avec atomisation électrothermique
  • NF EN 61853-2:2017 Essais de performance et caractéristiques assignées d'énergie des modules photovoltaïques (PV) - Partie 2 : mesurages de réponse spectrale, d'angle d'incidence et de température de fonctionnement des modules
  • FD CEN/TR 13205-3:2014 Exposition sur les lieux de travail - Évaluation des performances des instruments de mesurage des concentrations d'aérosols - Partie 3 : Analyse des données d'efficacité de prélèvement
  • NF C42-020-2-061*NF EN 61010-2-061:2015 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061 : particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • NF EN 1870-7:2012 Sécurité des machines pour le travail du bois - Machines à scies circulaires - Partie 7 : scies circulaires mono-lame à grumes à avance intégrée à table et à chargement et/ou déchargement manuel
  • NF ISO 15202-3:2005 Air des lieux de travail - Détermination des métaux et métalloïdes dans les particules en suspension dans l'air par spectrométrie d'émission atomique avec plasma à couplage inductif - Partie 3 : analyse
  • NF ISO 15202-1:2020 Air des lieux de travail - Détermination des métaux et métalloïdes dans les particules en suspension dans l'air par spectrométrie d'émission atomique avec plasma à couplage inductif - Partie 1 : prélèvement d'échantillons
  • NF X43-265-2:2012 Workplace air - Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry - Part 2 : sample preparation.
  • NF ISO 15202-2:2020 Air des lieux de travail - Détermination des métaux et métalloïdes dans les particules en suspension dans l'air par spectrométrie d'émission atomique avec plasma à couplage inductif - Partie 2 : préparation des échantillons

Korean Agency for Technology and Standards (KATS), The working principle of the energy spectrometer

  • KS I ISO 17733:2021 Workplace air — Determination of mercury and inorganic mercury compounds — Method by cold-vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 20552:2021 Workplace air — Determination of mercury vapour —Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 20552:2010 Workplace air-Determination of mercury vapour-Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 20552-2010(2016) Workplace air - Determination of mercury vapour - Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 8518:2021 Workplace air — Determination of particulate lead and lead compounds — Flame or electrothermal atomic absorption spectrometric method
  • KS I 30011-2012 Workplace air-Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma mass spectrometry
  • KS I ISO 15202-3:2021 Workplace air — Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry — Part 3: Analysis
  • KS I ISO 15202-1:2019 Workplace air — Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry — Part 1: Sampling

KR-KS, The working principle of the energy spectrometer

  • KS I ISO 17733-2021 Workplace air — Determination of mercury and inorganic mercury compounds — Method by cold-vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 20552-2021 Workplace air — Determination of mercury vapour —Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • KS I ISO 8518-2021 Workplace air — Determination of particulate lead and lead compounds — Flame or electrothermal atomic absorption spectrometric method
  • KS I ISO 15202-3-2021 Workplace air — Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry — Part 3: Analysis
  • KS I ISO 15202-1-2019 Workplace air — Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry — Part 1: Sampling

Group Standards of the People's Republic of China, The working principle of the energy spectrometer

  • T/WSJD 18.15-2021 Cold Atomic Absorption Spectrometry for Determination of Mercury by Chemical Factors in Workplace Air

British Standards Institution (BSI), The working principle of the energy spectrometer

  • BS ISO 20552:2007 Workplace air - Determination of mercury vapour - Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • BS ISO 17733:2015 Tracked Changes. Workplace air. Determination of mercury and inorganic mercury compounds. Method by cold-vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • BS ISO 17733:2004 Workplace air - Determination of mercury and inorganic mercury compounds - Method by cold vapour atomic absorption spectrometry or atomic fluorescence spectrometry
  • BS EN 13205:2002 Workplace atmospheres - Assessment of performance of instruments for measurement of airborne particle concentrations
  • BS ISO 11174:2023 Workplace air. Determination of particulate cadmium and cadmium compounds. Flame and electrothermal atomic absorption spectrometric method
  • BS ISO 8518:2005 Workplace air - Determination of particulate lead and lead compounds - Flame or electrothermal atomic absorption spectrometric method
  • BS EN IEC 61010-2-061:2021 Tracked Changes. Safety requirements for electrical equipment for measurement, control and laboratory use. Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • 22/30435294 DC BS ISO 11174. Workplace air. Determination of particulate cadmium and cadmium compounds. Flame and electrothermal atomic absorption spectrometric method
  • 21/30395416 DC BS ISO 8518. Workplace air. Determination of particulate lead and lead compounds. Flame or electrothermal atomic absorption spectrometric method
  • BS ISO 11174:1997 Workplace air - Determination of particulate cadmium and cadmium compounds - Flame and electro-thermal atomic absorption spectrometric method
  • BS ISO 8518:2022 Tracked Changes. Workplace air. Determination of particulate lead and lead compounds. Flame and electrothermal atomic absorption spectrometric methods
  • 20/30368187 DC BS EN 61010-2-061 AMD1. Safety requirements for electrical equipment for measurement, control and laboratory use - Part 2-061. Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • BS 6069 Sec.3.3:1991 Characterization of air quality. Workplace atmospheres. Method for the determination of vaporous chlorinated hydrocarbons by charcoal tube/solvent desorption/gas chromatography
  • BS ISO 15202-1:2020 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry - Sampling
  • BS ISO 11041:1996 Workplace air. Determination of particulate arsenic and arsenic compounds and arsenic trioxide vapour. Method by hydride generation and atomic absorption spectrometry
  • BS ISO 15202-2:2012 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Sample preparation
  • BS ISO 15202-2:2020 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry - Sample preparation
  • BS ISO 15202-3:2004 Workplace air - Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry - Analysis
  • BS 6069 Sec.3.4:1991 Characterization of air quality. Workplace atmospheres. Method for the determination of vaporous aromatic hydrocarbons by charcoal tube/solvent desorption/gas chromatography

American Gas Association, The working principle of the energy spectrometer

  • AGA TOMS-2003 The Theory and Operations of Meter Shop Sonic Nozzle Proving Systems for the Natural Gas Industry

PL-PKN, The working principle of the energy spectrometer

  • PN Z04176-02-1986 Air purity protection ests for MCPA etermination of MCPA in work laces by gas chromatography
  • PN Z04204-02-1988 Air purity protection ests for ethylamine etermination of ethylamine in work laces by gas chromatography
  • PN Z04182-09-1987 Air purity protection ests for pesticides etermination of trichlorfon in work laces by gas chromatography
  • PN E06501-07-1992 Direct acting indicating analogue electrical measuring instruments and their accessories Special requirements for multi-function instruments
  • PN Z04206-02-1989 Air purity protection ests for magnesium oxide etermination of magnesium oxide in ork places by atomie absorption pectrometry
  • PN Z04157-03-1990 Air purity protection ests for calcium oxide etermination of calcium oxide n work places by atomie absorption pectrometry
  • PN Z04005-06-1988 Air purity protection Tests for alkalies Determination of sodium hydroxide in work places by flame atomie absorption spectrometry
  • PN Z04158-02-1986 Air purity protection ests for ethers etermination of diethyl ether in work laces by gas chromatography with ample enrichment
  • PN Z04207-03-1990 Air punty protection Tests for mercaptans Determination of ethyl mercaptan n work places by gas chromatography ith flame ionization detection
  • PN Z04207-04-1992 Air purity protection Tests for mercaptans Determination of methyl mercaptan n work places by gas chromatography with flame ionization detection
  • PN Z04011-03-1985 Air purity protection Tests for arsenie and its compounds Determination of arsenie and its :ompounds in work places by atomie absorption flame spectrometry
  • PN Z04102-03-1985 Air purity protection Tests for cadmium and its compounds Determination of cadmium and its compounds in work places by atomie absorption Flame spectrometry
  • PN Z04124-02-1985 Air purity protection Tests for nickel and its compounds Determination of nickel and its compounds in work places by atomie absorption spectrometry
  • PN Z04139-03-1988 Air purity protection Tests for lead and its compounds Determination of lead and its compounds in work places by flame atomie absorption spectrometry
  • PN Z04139-04-1989 Air purity protection Tests for lead and its compounds Determination of lead and its compounds in work places by flame atomie absorption spectrometry
  • PN Z04161-02-1986 Air purity protection ests for cobalt and its compounds etermination of cobalt and cobalt ompounds in work places by atomie bsorption spectrometry
  • PN Z04100-03-1987 Air purity protection Tests for zinc and its compourds Determination of zinc and zinc oxide in work places by atomie absorption spectrometry
  • PN Z04210-02-1989 Air purity protection Tests for />-nitrophenol Determination of /j-riitrophenol in work places by high performance liquid chromatography
  • PN Z04216-02-1991 Air purity protection Tests for silver and its compounds content Determination of silver and its compounds in work places by flame atomie absorption spectrometry
  • PN Z04188-02-1988 Air purity protection ests for 1,3-propane sultone etermination of 1,3-propane ultone at work places by gas hromatography with sample nrichment
  • PN Z04217-02-1991 Air purity protection Tests for maleic anhydride content Determination of maleic anhydride in work places by high performance li?uid chromatography
  • PN Z04145-03-1985 Air purity protection Tests for benzidine Determination of benzidine in work places by high performance liquid chromatography

GOSTR, The working principle of the energy spectrometer

  • GOST R ISO 17733-2020 Workplace air. Determination of mercury and inorganic mercury compounds. Method by cold-vapour atomic spectroscopy
  • GOST R 58648.2-2019 Photovoltaic module. Performance testing and energy rating. Part 2. Determination of spectral sensitivity, characteristics dependence on the incidence angle and coefficients for calculating the operating temperature

RU-GOST R, The working principle of the energy spectrometer

  • GOST 26807-1986 Airborne digital apparatus for aircraft and helicopters. Standing test methods for working capacity under electromagnetic action conditions
  • PNST 186-2017 The construction of objects using atomic energy. Requirements for the personnel making works that affect for the safety of nuclear energy sites
  • GOST R ISO 20552-2011 Workplace air. Determination of mercury vapour. Method using gold-amalgam collection and analysis by atomic absorption spectrometry or atomic fluorescence spectrometry
  • GOST 25804.4-1983 Atomic power station technological processes control system equipmet. General design-constructional requirements
  • GOST 30630.0.0-1999 Environment stabilty test methods for machines, instruments and other industrial products. General requirements
  • GOST 25804.6-1983 Atomic power station technological processes control system equipment. Evaluation methods of meeting reliability requirements
  • GOST 25804.8-1983 Atomic power station technological processes control system equipment. Evaluation methods of meeting general design-constructional requirements
  • GOST 25804.5-1983 Atomic power station technological processes control system equipment. General rules of conducting test specimens and serial items test and acceptance
  • GOST 25804.3-1983 Atomic power station technological processes control system equipment. Durability, endurance, resistance requirements for hignest influental factor
  • GOST R 53609-2009 Global navigation satellite systems. Methods and technologies of execution geodesy and cadastral works executin. Evaluation of work capacity of two-frequenses geodetic apparatus by measuring of code and phase pseudo-ranges
  • GOST 25804.7-1983 Atomic power station technological processes control system equipment. Evaluation methods of meeting durability, endurance and resistance requirements for highest influental factors
  • GOST R ISO 15202-1-2007 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Part 1. Sampling
  • GOST R ISO 15202-3-2008 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Part 3. Analysis
  • GOST R ISO 15202-2-2008 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Part 2. Sample preparation
  • GOST R ISO 15202-1-2014 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Part 1. Sampling
  • GOST R ISO 15202-2-2014 Workplace air. Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry. Part 2. Sample preparation

ZA-SANS, The working principle of the energy spectrometer

  • SANS 6164:2009 Determination of lead (inorganic and tetra-alkyl) in workplace air by atomic absorption spectrophotometry

AENOR, The working principle of the energy spectrometer

  • UNE 81587:2017 Workplace exposure. Determination of metals and metalloids in airborne particles. Atomic Spectrometry method.
  • UNE 81569:1991 AIR QUALITY. WORKPLACE ATMOSPHERES. DETERMINATION OF METALLIC LEAD AND THEIR IONIC COMPOUNDS. FLAME ATOMIC ABSORPTION SPECTROMETRIC METHOD.
  • UNE 81575:1998 AIR QUALITY. WORKPLACE ATMOSPHERES. DETERMINATION OF PARTICULATE ARSENIC AND ARSENIC COMPOUNDS AND ARSENIC TRIOXIDE VAPOUR. METHOD BY HYDRIDE GENERATION/ATOMIC ABSORPTION SPECTROMETRY.

International Organization for Standardization (ISO), The working principle of the energy spectrometer

  • ISO 8518:2022 Workplace air — Determination of particulate lead and lead compounds — Flame and electrothermal atomic absorption spectrometric methods
  • ISO/PRF 11174 Workplace air — Determination of particulate cadmium and cadmium compounds — Flame and electrothermal atomic absorption spectrometric method
  • ISO 11174:2023 Workplace air — Determination of particulate cadmium and cadmium compounds — Flame and electrothermal atomic absorption spectrometric method
  • ISO/DIS 6323-1 Workplace air — Determination of arsenic and arsenic compounds by electrothermal atomic absorption spectrometry — Part 1: Arsenic and arsenic compounds, except arsine by ET-AAS
  • ISO 15202-1:2020 Workplace air — Determination of metals and metalloids in airborne particulate matter by inductively coupled plasma atomic emission spectrometry — Part 1: Sampling

Underwriters Laboratories (UL), The working principle of the energy spectrometer

  • UL 61010A-2-061-2002 UL Standard for Safety Electrical Equipment for Laboratory Use; Part 2: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (First Edition)
  • UL 61010A-2-061 (ND)-2002 National Differences For UL 61010A-2-061 Standard for Electrical Equipment for Laboratory Use; Part 2: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (First Edition)
  • UL 61010A-2-061 BULLETIN-2005 UL Standard for Safety Electrical Equipment for Laboratory Use; Part 2: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization
  • UL 61010-2-061 BULLETIN-2019 UL Standard for Safety Requirements for Electrical Equipment for Measurement@ Control and Laboratory Use – Part 2-061: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (COMMENTS DUE: MAY 20@ 2019)
  • UL 61010-2-061 BULLETIN-2015 UL Standard for Safety Requirements for Electrical Equipment for Measurement@ Control@ and Laboratory Use – Part 2-061: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (COMMENTS DUE: JULY 20@ 2015)
  • UL 61010-2-061-2019 UL Standard for Safety Requirements for Electrical Equipment for Measurement@ Control@ and Laboratory Use – Part 2-061: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (Fourth Edition)
  • UL 61010-2-061-2015 UL Standard for Safety Requirements for Electrical Equipment for Measurement@ Control and Laboratory Use – Part 2-061: Particular Requirements for Laboratory Atomic Spectrometers with Thermal Atomization and Ionization (Third Edition)

未注明发布机构, The working principle of the energy spectrometer

  • BS ISO 11174:1996(1998) Workplace air — Determination of particulate cadmium and cadmium compounds — Flame and electro - thermal atomic absorption spectrometric method
  • BS ISO 11041:1996(1998) Workplace air — Determination of particulate arsenic and arsenic compounds and arsenic trioxide vapour — Method by hydride generation and atomic absorption spectrometry

International Electrotechnical Commission (IEC), The working principle of the energy spectrometer

  • IEC 61010-2-061:2015 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • IEC 61010-2-061:2018 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • IEC 61010-2-061:1995 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • IEC 61010-2-061:2003 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • IEC 61010-2-061:2005 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization
  • IEC TR 61511-4:2020 Functional safety - Safety instrumented systems for the process industry sector - Part 4: Explanation and rationale for changes in IEC 61511-1 from Edition 1 to Edition 2

TH-TISI, The working principle of the energy spectrometer

  • TIS 2010-2000 Safety requirements for electrical equipment for measurement, control and laboratory use.part 2-061: particular requirements for laboratory atomic spectrometers with thermal atomization and ionization

ES-UNE, The working principle of the energy spectrometer

  • UNE-EN 61010-2-061:2015 Safety requirements for electrical equipment for measurement, control and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization (Endorsed by AENOR in June of 2015.)

Lithuanian Standards Office , The working principle of the energy spectrometer

  • LST ISO 8518:2003 Workplace air. Determination of particulate lead and lead compounds. Flame or electrothermal atomic absorption spectrometric method (idt ISO 8518:2001)
  • LST ISO 11174:2003 Workplace air. Determination of particulate cadmium and cadmium compounds. Flame and electrothermal atomic absorption spectrometric method (idt ISO 11174:1996)
  • LST ISO 11041:2003 Workplace air. Determination of particulate arsenic and arsenic compounds and arsenic trioxide vapour. Method by hydride generation and atomic absorption spectrometry (idt ISO 11041:1996)
  • LST EN 61010-2-061-2004 Safety requirements for electrical equipment for measurement, control, and laboratory use. Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization (IEC 61010-2-061:2003)

ETSI - European Telecommunications Standards Institute, The working principle of the energy spectrometer

  • TR 102 748-2008 Electromagnetic compatibility and Radio spectrum Matters (ERM); Impact of the trend towards flexibility in spectrum usage on the principles for drafting Harmonized Standards and the ETSI work programme for Harmonized Standards (V1.1.1)
  • ES 202 239-2003 Electromagnetic compatibility and Radio spectrum Matters (ERM); Wireless digital video links operating above 1@3 GHz; Specification of typical receiver performance parameters for spectrum planning (V1.1.1)

European Committee for Electrotechnical Standardization(CENELEC), The working principle of the energy spectrometer

  • EN IEC 61010-2-061:2021 Safety requirements for electrical equipment for measurement, control and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization

BE-NBN, The working principle of the energy spectrometer

  • NBN T 96-202-1989 Work place atmospheres - Determination of formaldéhyde concentration - Method by derivatization with DNPH adsorbed on C 18 cartrigdes, désorption with acetonitrile and HPLC analysis

ES-AENOR, The working principle of the energy spectrometer

  • UNE 81-569-1991 Air quality. Workplace atmospheres. Determination of metallic lead and their ionic compounds. Flame atomic absorption spectrometric method

Canadian Standards Association (CSA), The working principle of the energy spectrometer

  • CAN/CSA-C22.2 NO.61010-2-061-2015 Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 2-061: Particular requirements for laboratory atomic spectrometers with thermal atomization and ionization (Third Edition)

  The working principle of the energy spectrometer.

 



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