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Advantages of optical measurement

Advantages of optical measurement, Total:330 items.

In the international standard classification, Advantages of optical measurement involves: Electronic display devices, Particle size analysis. Sieving, Acoustics and acoustic measurements, Refractories, Non-ferrous metals, Corrosion of metals, Iron and steel products, Optical equipment, Optics and optical measurements, Vocabularies, Astronomy. Geodesy. Geography, Medical equipment, Fibre optic communications, Non-metalliferous minerals, Thermodynamics and temperature measurements, Photography, Optoelectronics. Laser equipment, IT terminal and other peripheral equipment, Piezoelectric and dielectric devices, Radiation measurements, Lamps and related equipment, Paper and board, Water quality, Linear and angular measurements, Applications of information technology, Audio, video and audiovisual engineering, Organic chemicals, Semiconductor devices, Horology, Lighting, Paints and varnishes, Glass, Electronic components in general.

British Standards Institution (BSI), Advantages of optical measurement

• BS PD IEC/TS 62715-5-2:2016 Flexible display devices. Measuring methods of optical characteristics from the vantage point for curved displays
• BS ISO 13099-2:2012 Colloidal systems. Methods for zetapotential determination. Optical methods
• PD ISO/TR 14999-2:2019 Optics and photonics. Interferometric measurement of optical elements and optical systems. Measurement and evaluation techniques
• BS ISO 9849:2017 Optics and optical instruments. Geodetic and surveying instruments. Vocabulary
• PD ISO/TR 14999-3:2005 Optics and photonics. Interferometric measurement of optical elements and optical systems. Calibration and validation of interferometric test equipment and measurements
• BS ISO 9039:2007 Optics and photonics - Quality evaluation of optical systems - Determination of distortion
• BS ISO 9335:2012 Optics and photonics. Optical transfer function. Principles and procedures of measurement
• BS ISO 9039:2008 Optics and photonics. Quality evaluation of optical systems. Determination of distortion
• BS ISO 17411:2022 Optics and photonics. Optical materials and components. Test method for homogeneity of optical glasses by laser interferometry
• 13/30277005 DC BS ISO 9849. Optics and optical instruments. Geodetic and surveying instruments. Vocabulary
• BS ISO 11421:1997 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement
• BS ISO 9335:1996 Optics and optical instruments - Optical transfer function - Principles and procedures of measurement
• BS ISO 13653:2019 Optics and photonics. General optical test methods. Measurement of relative irradiance in the image field
• BS ISO 17123-6:2022 Optics and optical instruments. Field procedures for testing geodetic and surveying instruments - Rotating lasers
• BS ISO 9849:2001 Optics and optical instruments - Geodetic and surveying instruments - Vocabulary
• BS EN 62496-2-2:2011 Optical circuit boards. Measurements. Dimensions of optical circuit boards
• BS ISO 10109-7:2001 Optics and optical instruments - Environmental requirements - Test requirements for optical measuring instruments
• BS ISO 8478:2017 Optics and photonics. Camera lenses. Measurement of ISO spectral transmittance
• BS ISO 19962:2019 Optics and photonics. Spectroscopic measurement methods for integrated scattering by plane parallel optical elements
• BS ISO 17123-9:2018 Optics and optical instruments. Field procedures for testing geodetic and surveying instruments - Terrestrial laser scanners
• BS ISO 17123-5:2018 Optics and optical instruments. Field procedures for testing geodetic and surveying instruments - Total stations
• BS ISO 17915:2018 Optics and photonics. Measurement method of semiconductor lasers for sensing
• PD ISO/TR 14999-1:2005 Optics and photonics. Interferometric measurement of optical elements and optical systems. Terms, definitions and fundamental relationships
• BS ISO 17411:2014 Optics and photonics. Optical materials and components. Test method for homogeneity of optical glasses by laser interferometry
• BS ISO 13653:1997 Optics and optical instruments - General optical test methods - Measurement of relative irradiance in the image field
• BS ISO 23701:2023 Optics and photonics. Laser and laser-related equipment. Photothermal technique for absorption measurement and mapping of optical laser components
• BS IEC 62595-2-5:2021 Display lighting unit. Measurement method for optical quantities of non-planar light sources
• BS IEC 62906-5-1:2021 Laser displays - Measurement of optical performance for laser front projection
• BS IEC 62977-2-1:2021 Electronic displays. Measurements of optical characteristics. Fundamental measurements
• BS EN 62496-2-1:2011 Optical circuit boards. Measurements. Optical attenuation and isolation
• BS IEC 62906-5-4:2018 Laser display devices - Optical measuring methods of colour speckle
• BS ISO 14999-4:2007 Optics and photonics - Interferometric measurement of optical elements and optical systems - Interpretation and evaluation of tolerances specified in ISO 10110
• BS ISO 14999-4:2015 Optics and photonics. Interferometric measurement of optical elements and optical systems. Interpretation and evaluation of tolerances specified in ISO 10110
• PD ISO/TR 22588:2005 Optics and photonics. Laser and laser-related equipment. Measurement and evaluation of absorption-induced effects in laser optical components
• 21/30393812 DC BS ISO 17123-6. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 6. Rotating lasers
• BS PD IEC/TS 62129-3:2014 Calibration of wavelength/optical frequency measurement instruments. Optical frequency meters using optical frequency combs
• BS ISO 9358:1995 Optics and optical instruments - Veiling glare of image forming systems - Definitions and methods of measurement
• 22/30406827 DC BS ISO 23701. Optics and photonics. Laser and laser-related equipment. Photothermal technique for absorption measurement and mapping of optical laser components
• BS ISO 12858-2:2020 Optics and optical instruments. Ancillary devices for geodetic instruments - Tripods
• PD ISO/TR 21477:2017 Optics and photonics. Preparation of drawings for optical elements and systems. Surface imperfection specification and measurement systems
• BS EN 61988-2-1:2012 Plasma display panels. Measuring methods. Optical and optoelectrical
• 22/30432837 DC BS EN ISO 24013. Optics and photonics. Lasers and laser-related equipment. Measurement of phase retardation of optical components for polarized laser radiation
• BS IEC 62679-3-1:2014 Electronic paper displays. Optical measuring methods
• BS ISO 17901-2:2015 Optics and photonics. Holography. Methods for measurement of hologram recording characteristics
• BS ISO 9358:1994 Optics and optical instruments. Veiling glare of image forming systems. Definitions and methods of measurement
• BS ISO 16331-1:2017 Optics and optical instruments. Laboratory procedures for testing surveying and construction instruments. Performance of handheld laser distance meters
• BS ISO 17901-1:2015 Optics and photonics. Holography. Methods of measuring diffraction efficiency and associated optical characteristics of holograms

International Organization for Standardization (ISO), Advantages of optical measurement

• ISO 266:1975 Acoustics; Preferred frequencies for measurements
• ISO 13099-2:2012 Colloidal systems - Methods for zeta-potential determination - Part 2: Optical methods
• ISO 9849:2017 Optics and optical instruments — Geodetic and surveying instruments — Vocabulary
• ISO/TR 14999-2:2019 Optics and photonics — Interferometric measurement of optical elements and optical systems — Part 2: Measurement and evaluation techniques
• ISO/TR 14999-2:2005 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 2: Measurement and evaluation techniques
• ISO 8624:1991 Optics and optical instruments; ophthalmic optics; measuring system for spectacle frames
• ISO 9039:2008 Optics and photonics - Quality evaluation of optical systems - Determination of distortion
• ISO/CD 11421:2023 Optics and photonics — Accuracy of optical transfer function (OTF) measurement
• ISO 9039:1994 Optics and optical instruments - Quality evaluation of optical systems - Determination of distortion
• ISO 11421:1997 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement
• ISO 9849:1991 Optics and optical instruments; geodetic instruments; vocabulary
• ISO 8478:2017 Optics and photonics - Camera lenses - Measurement of ISO spectral transmittance
• ISO/CD 9335:2023 Optics and photonics — Optical transfer function — Principles and procedures of measurement
• ISO 13653:1996 Optics and optical instruments - General optical test methods - Measurement of relative irradiance in the image field
• ISO 12857-3:1997 Optics and optical instruments - Geodetic instruments - Field procedures for determining accuracy - Part 3: Electro-optical distance meters (EDM instruments)
• ISO 10109-7:2001 Optics and optical instruments - Environmental requirements - Part 7: Test requirements for optical measuring instruments
• ISO 17915:2018 Optics and photonics - Measurement method of semiconductor lasers for sensing
• ISO 19962:2019 Optics and photonics — Spectroscopic measurement methods for integrated scattering by plane parallel optical elements
• ISO/TR 14999-3:2005 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 3: Calibration and validation of interferometric test equipment and measurements
• ISO 9335:1995 Optics and optical instruments - Optical transfer function - Principles and procedures of measurement
• ISO 9335:2012 Optics and photonics - Optical transfer function - Principles and procedures of measurement
• ISO 9358:1994 Optics and optical instruments - Veiling glare of image-forming systems - Definitions and methods of measurement
• ISO 17411:2014 Optics and photonics - Optical materials and components - Test method for homogeneity of optical glasses by laser interferometry
• ISO 23701:2023 Optics and photonics — Laser and laser-related equipment — Photothermal technique for absorption measurement and mapping of optical laser components
• ISO/PRF 24013 Optics and photonics — Lasers and laser-related equipment — Measurement of phase retardation of optical components for polarized laser radiation
• ISO 12732:2006 Corrosion of metals and alloys - Electrochemical potentiokinetic reactivation measurement using the double loop method (based on Cihal's method)
• ISO 15682:2000 Water quality - Determination of chloride by flow analysis (CFA and FIA) and photometric or potentiometric detection
• ISO 17123-9:2018 Optics and optical instruments — Field procedures for testing geodetic and surveying instruments — Part 9: Terrestrial laser scanners
• ISO 9039:1994/Cor 1:2004 Optics and optical instruments - Quality evaluation of optical systems - Determination of distortion; Technical Corrigendum 1
• ISO 13653:2019 Optics and photonics — General optical test methods — Measurement of relative irradiance in the image field
• ISO/TR 22588:2005 Optics and photonics - Lasers and laser-related equipment - Measurement and evaluation of absorption-induced effects in laser optical components
• ISO 24013:2023 Optics and photonics — Lasers and laser-related equipment — Measurement of phase retardation of optical components for polarized laser radiation
• ISO 17123-7:2005 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 7: Optical plumbing instruments
• ISO 17123-4:2012 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 4: Electro-optical distance meters (EDM measurements to reflectors)
• ISO 17123-6:2022 Optics and optical instruments — Field procedures for testing geodetic and surveying instruments — Part 6: Rotating lasers
• ISO 9849:2000 Optics and optical instruments - Geodetic and surveying instruments - Vocabulary
• ISO/TR 14999-1:2005 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 1: Terms, definitions and fundamental relationships
• ISO 12857-2:1997 Optics and optical instruments - Geodetic instruments - Field procedures for determining accuracy - Part 2: Theodolites
• ISO 12857-1:1997 Optics and optical instruments - Geodetic instruments - Field procedures for determining accuracy - Part 1: Levels
• ISO/TS 17915:2013 Optics and photonics.Measurement method of semiconductor lasers for sensing
• ISO/TR 21477:2017 Optics and photonics — Preparation of drawings for optical elements and systems — Surface imperfection specification and measurement systems
• ISO/CD TR 11797:2024 Ophthalmic optics – Spectacle lenses – Power and prism measurements
• ISO 13694:2018 Optics and photonics — Lasers and laser-related equipment — Test methods for laser beam power (energy) density distribution
• ISO 14999-4:2007 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4: Interpretation and evaluation of tolerances specified in ISO 10110
• ISO 14999-4:2015 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4: Interpretation and evaluation of tolerances specified in ISO 10110
• ISO 15529:2007 Optics and photonics - Optical transfer function - Principles of measurement of modulation transfer function (MTF) of sampled imaging systems
• ISO 15529:2010 Optics and photonics - Optical transfer function - Principles of measurement of modulation transfer function (MTF) of sampled imaging systems

Taiwan Provincial Standard of the People's Republic of China, Advantages of optical measurement

• CNS 13545-1995 Acoustics - Preferred Frequencies for Measurements
• CNS 7200-1981 Tripod Connections for Optical Surveying Instruments

Professional Standard - Ferrous Metallurgy, Advantages of optical measurement

• YB/T 4009-1991 High-quality magnesia chemical analysis method Molybdenum blue photometric method for determination of silica content
• YB 4009-1991 High-quality magnesia chemical analysis method Molybdenum blue photometric method for determination of silica content
• YB/T 4011-1991 Determination of phosphorus pentoxide content by molybdenum blue photometric method for chemical analysis of high-quality magnesia
• YB/T 4012-1991 High-quality magnesia chemical analysis method Determination of manganese oxide content by potassium periodate photometry
• YB 4007-1991 Chemical analysis method of high quality magnesia Determination of alumina content by chrome azure S photometric method
• YB/T 4007-1991 Chemical analysis method of high quality magnesia Determination of alumina content by chrome azure S photometric method
• YB 4011-1991 Determination of phosphorus pentoxide content by molybdenum blue photometric method for chemical analysis of high-quality magnesia
• YB 4012-1991 High-quality magnesia chemical analysis method Determination of manganese oxide content by potassium periodate photometry
• YB/T 4013-1991 Method for chemical analysis of high-quality magnesia
• YB/T 4006-1991 Ignition loss determined by gravimetric method for chemical analysis of high-quality magnesia
• YB 4006-1991 Determination of loss on ignition by gravimetric method for chemical analysis of high-quality magnesia
• YB 4004-1991 High-quality magnesia chemical analysis method diantipyrine methane spectrophotometric determination of titanium dioxide content
• YB/T 4004-1991 High-quality magnesia chemical analysis method diantipyrine methane spectrophotometric determination of titanium dioxide content
• YB/T 4005-1991 Determination of calcium oxide content by EDTA volumetric method for chemical analysis of high-quality magnesia
• YB 4005-1991 Determination of calcium oxide content by EDTA volumetric method for chemical analysis of high-quality magnesia
• YB/T 4010-1991 Determination of Magnesium Oxide by Subtraction Method for Chemical Analysis of High Quality Magnesia
• YB 4010-1991 Determination of Magnesium Oxide by Subtraction Method for Chemical Analysis of High Quality Magnesia

Japanese Industrial Standards Committee (JISC), Advantages of optical measurement

• JIS G 0580:2003 Method of electrochemical potentiokinetic reactivation ratio measurement for stainless steels
• JIS B 7081:2017 Optics and photonics -- Spectroscopic measurement methods for integrated scattering by plane optical elements
• JIS Z 8714:1995 Retroreflectors -- Optical properties -- Measuring method
• JIS Z 4339:2004 Optically stimulated luminescence dosimetry systems
• JIS B 7913:2007 Optics and optical instruments -- Ancillary devices for geodetic instruments -- Tribrachs
• JIS C 6823:1999 Measuring methods for attenuation of optical fibers
• JIS C 6188:1999 Test methods of measuring optical attenuators
• JIS C 6114-2:2006 Measuring method of optical modulator modules

Association Francaise de Normalisation, Advantages of optical measurement

• FD X07-014:2006 Metrology - Optimisation of measuring equipment calibration frequencies (metrological confirmation)
• NF S11-520:1996 OPTICS AND OPTICAL INSTRUMENTS. OPHTHALMIC OPTICS. MEASURING SYSTEM FOR SPECTACLE FRAMES. (EUROPEAN STANDARD EN ISO 8624).
• NF S10-042*NF ISO 9039:2009 Optics and photonics - Quality evaluation of optical systems - Determination of distortion
• NF S10-044*NF ISO 11421:1999 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement
• NF ISO 11421:1999 Optique et instruments d'optique - Exactitude du mesurage de la fonction de transfert optique (OTF)
• NF ISO 9335:2013 Optique et photonique - Fonction de transfert optique - Principes et procédures de mesure
• NF S10-041:1998 Optics and photonics - Optical transfer function - Principles and procedures of measurement.
• NF S10-042:1998 Optics and optical instruments. Quality evaluation of optical systems. Determination of distorsion.
• NF ISO 9039:2009 Optique et photonique - Évaluation de la qualité des systèmes optiques - Détermination de la distorsion
• FD ISO/TR 14999-2:2019 Optique et photonique - Mesurage interférométrique de composants et systèmes optiques - Partie 2 : mesurage et techniques d'évaluation
• NF S10-045*NF ISO 13653:2019 Optics and photonics - General optical test methods - Measurement of relative irradiance in the image field
• NF T90-082*NF EN ISO 15682:2001 Water quality - Determination of chloride by flow analysis (CFA and FIA) and photometric or potentiometric detection
• NF ISO 13653:2019 Optique et photonique - Méthodes générales d'essai optique - Méthode de mesure de l'éclairement énergétique relatif dans le champ image
• NF S10-048*NF ISO 19962:2019 Optics and photonics - Spectroscopic measurement methods for integrated scattering by plane parallel optical elements
• NF ISO 19962:2019 Optique et photonique - Méthodes de mesure spectroscopique pour la diffusion intégrée par des éléments optiques à plans parallèles
• NF ISO 17411:2023 Optique et photonique - Matériaux et composants optiques - Méthode d'essai d'homogénéité des verres optiques par interférométrie laser
• NF S10-041*NF ISO 9335:2013 Optics and photonics - Optical transfer function - Principles and procedures of measurementt
• NF C96-550/A1:1980 Optoelectronic Special measurement methods for optoelectronic devices
• NF EN ISO 24013:2007 Optique et photonique - Lasers et équipements associés aux lasers - Mesurage du retard de phase des composants optiques pour le rayonnement laser polarisé
• NF S10-043*NF ISO 9358:1998 Optics and optical instruments. Veiling glare of image-forming systems. Definitions and methods of measurement.
• NF S10-045:1999 Optics and optical instruments - General optical test methods - Measurement of relative irradiance in the image field.
• NF S10-049:2003 Optics and optical instruments - Measurement of reflectance of plane surfaces and transmittance of plane parallel elements.
• NF EN 61988-2-1:2012 Panneaux d'affichage à plasma - Partie 2-1 : méthodes de mesure - Mesures optiques et opto-électriques
• NF S86-305:2014 Horology - Radioluminescent time measuring instruments
• NF S86-305:1996 Horology. Radioluminescent time measuring instruments.
• NF ISO 9358:1998 Optique et instruments d'optique - Lumière parasite diffuse des systèmes d'imagerie - Définitions et méthodes de mesure.
• NF S10-124*NF EN ISO 13694:2018 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution
• NF EN ISO 13694:2018 Optique et photonique - Lasers et équipements associés aux lasers - Méthodes d'essai de distribution de la densité de puissance (d'énergie) du faisceau laser
• NF S10-009-4:2007 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4 : interpretation and evaluation of tolerances specified in ISO 10110.
• NF S10-009-4*NF ISO 14999-4:2015 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4 : interpretation and evaluation of tolerances specified in ISO 10110
• NF S10-050*NF ISO 15529:2011 Optics and photonics - Optical transfer function - Principles of measurement of modulation transfer function (MTF) of sampled imaging systems
• NF ISO 15529:2011 Optique et photonique - Fonction de transfert optique - Principes de mesure de la fonction de transfert de modulation (MTF) des systèmes de formation d'image échantillonnés

BE-NBN, Advantages of optical measurement

• NBN-ISO 1683:1992 Acoustics. Preferred reference quantities for acoustic levels
• NBN-EN 10071-1992 Chemical analysis of ferrous materials. Determination of manganese in steels and irons. Electrometric titration method

Korean Agency for Technology and Standards (KATS), Advantages of optical measurement

• KS B ISO TR 14999-2:2011 Optics and photonics-Interferometric measurement of optical elements and optical systems-Part 2:Measurement and evaluation techniques
• KS B ISO TR 14999-2-2011(2021) Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 2：Measurement and evaluation techniques
• KS B ISO TR 14999-2-2011(2016) Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 2：Measurement and evaluation techniques
• KS B ISO 11421-2001(2016) Optics and optical instruments－Accuracy of optical transfer function(OTF) measurement
• KS B ISO 9849:2002 Optics and optical instruments－Geodetic instruments－Vocabulary
• KS B ISO 11421-2001(2021) Optics and optical instruments－Accuracy of optical transfer function(OTF) measurement
• KS B ISO 9039:2013 Optics and optical instruments ― Quality evaluation of optical systems ― Determination of distortion
• KS B ISO 9335:2011 Optics and optical instruments-Optical transfer function-Principles and procedures of measurement
• KS B ISO 9039:2003 Optics and optical instruments-Quality evaluation of optical systems-Determination of distortion
• KS B ISO 11421:2001 Optics and optical instruments－Accuracy of optical transfer function(OTF) measurement
• KS B ISO 9335-2016(2021) Optics and optical instruments－Optical transfer function－Principles and procedures of measurement
• KS B ISO 9335:2016 Optics and optical instruments－Optical transfer function－Principles and procedures of measurement
• KS B ISO 9849:2017 Optics and optical instruments－Geodetic instruments－Vocabulary
• KS B ISO 9849-2017(2022) Optics and optical instruments－Geodetic instruments－Vocabulary
• KS B ISO 13653:2006 Optics and optical instruments-General optical test methods-Measurement of relative irradiance in the image field
• KS C 0309-2005(2010) Ergonomic measuring criteria for the VDUs－Part 4：Limits and methods of EMF measurement for the FPD type monitor
• KS B ISO 13653-2006(2016) Optics and optical instruments — General optical test methods —Measurement of relative irradiance in the image field
• KS B ISO 9358-2006(2016) Optics and optical instruments -- Veiling glare of image forming systems -- Definitions and methods of measurement
• KS B ISO 9358:2006 Optics and optical instruments Veiling glare of image-forming systems - Definitions and methods of measurement
• KS I ISO 15682:2006 Water quality－Determination of chloride by flow analysis(CFA and FIA) and photometric or potentiometric detection
• KS B ISO TR 14999-1:2011 Optics and photonics-Interferometric measurement of optical elements and optical systems-Part 1:Terms, definitions and fundamental relationships
• KS B ISO 10109-7:2004 Optics and optical instruments－Environmental requirements－Part 7：Test requirements for optical measuring instruments
• KS B ISO 10109-7-2004(2019) Optics and optical instruments－Environmental requirements－Part 7：Test requirements for optical measuring instruments
• KS B ISO TR 14999-1-2011(2021) Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 1：Terms, definitions and fundamental relationships
• KS B ISO TR 14999-1-2011(2016) Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 1：Terms, definitions and fundamental relationships
• KS B ISO 9358-2006(2021) Optics and optical instruments -- Veiling glare of image forming systems -- Definitions and methods of measurement
• KS B ISO 13653-2006(2021) Optics and optical instruments — General optical test methods —Measurement of relative irradiance in the image field
• KS B ISO 12857-1:2002 Optics and optical instruments－Geodetic instruments－Field procedures for determining accuracy－Part 1：Levels
• KS B ISO 12857-2:2002 Optics and optical instruments-Geodetic instruments-Field procedures for determining accuracy-Part 2:Theodolites
• KS B 5317-1985(2021) Tripod Connections for Optical Surveying Instrument
• KS B 5317-1985(2016) Tripod Connections for Optical Surveying Instrument
• KS B ISO 15529-2011(2021) Optics and photonics — Optical transfer function — Principles of measurement of modulation transfer function (MTF) of sampled imaging systems
• KS B ISO 13694-2015(2020) Optics and optical instruments — Lasers and laser-related equipment — Test methods for laser beam power[energy] density distribution
• KS B ISO 14999-4-2016(2021) Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 4：Interpretation and evaluation of tolerances specified in KS B ISO 10110
• KS B ISO 15529:2011 Optics and photonics-Optical transfer function-Principles of measurement of modulation transfer function (MTF) of sampled imaging systems
• KS B ISO 15529-2011(2016) Optics and photonics — Optical transfer function — Principles of measurement of modulation transfer function (MTF) of sampled imaging systems

American Society for Testing and Materials (ASTM), Advantages of optical measurement

• ASTM E3124-17 Standard Test Method for Measuring System Latency Performance of Optical Tracking Systems that Measure Six Degrees of Freedom (6DOF) Pose
• ASTM E2387-05 Standard Practice for Goniometric Optical Scatter Measurements

RO-ASRO, Advantages of optical measurement

• STAS SR ISO 8624:1993 Optics and optical instruments. Ophthalmic optics. Measuring system for spectacle frames
• STAS 12286-1985 OPTICAL GLASS Bubbles content determination
• STAS 12534-1987 OPTICAL GLASS Striae content determination

冶金工业部, Advantages of optical measurement

• YB 4013-1991 Chemical analysis method of high-quality magnesia, determination of iron oxide content by photometric method of phenanthroline

KR-KS, Advantages of optical measurement

• KS B ISO 9335-2023 Optics and photonics — Optical transfer function — Principles and procedures of measurement
• KS B ISO 9335-2016 Optics and optical instruments－Optical transfer function－Principles and procedures of measurement
• KS B ISO 9039-2023 Optics and photonics — Quality evaluation of optical systems — Determination of distortion
• KS B ISO 9849-2017 Optics and optical instruments－Geodetic instruments－Vocabulary
• KS B ISO 9358-2023 Optics and optical instruments — Veiling glare of image forming systems — Definitions and methods of measurement
• KS B ISO 14999-4-2016 Optics and photonics－Interferometric measurement of optical elements and optical systems－Part 4：Interpretation and evaluation of tolerances specified in KS B ISO 10110
• KS B ISO 15529-2023 Optics and photonics — Optical transfer function — Principles of measurement of modulation transfer function(MTF) of sampled imaging systems

未注明发布机构, Advantages of optical measurement

• DIN ISO 9335:2002-07 Optics and photonics - Optical transfer function - Principles and procedures of measurement
• DIN ISO 9335 E:2014-10 Optics and photonics - Optical transfer function - Principles and procedures of measurement
• BS 4779:1971(2011) Recommendations for Measurement ofthe optical transfer function ofoptical devices
• BS ISO 9358:1994(2000) Optics and optical instruments — Veiling glare of image - forming systems — Definitions and methods of measurement
• BS EN ISO 24013:2023 Optics and photonics — Lasers and laser - related equipment — Measurement of phase retardation of optical components for polarized laser radiation
• DIN ISO 17123-3 E:2017-10 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 3: Theodolites
• DIN 58146 E:2019-09 Measuring method for the determination of solarization of optical glass fiber and bundles
• DIN ISO 14999-4 E:2015-06 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4: Interpretation and evaluation of tolerances specified in ISO 10110
• ISO 9335:1995/Cor 1:2005 Optical and Optical Instruments Light Transfer Function Measurement Principles and Procedures Technical Corrigendum 1

American National Standards Institute （ANSI), Advantages of optical measurement

• ANSI/TIA-455-20-B-2004 Fiber Optics - Measurement of Change in Optical Transmittance
• ANSI S1.6-1984 Preferred Frequencies, Frequency Levels, and Band Numbers for Acoustical Measurements
• ANSI/TIA-455-195-A-2003 Coating Geometry Measurement for Optical Fiber - FOTP195
• ANSI/TAPPI T1217 sp-2012 Photometric linearity of optical properties instruments
• ANSI X9.100-30-2011 Optical Measurement Specifications for MICR Documents

RU-GOST R, Advantages of optical measurement

• GOST R 8.745-2011 State system for ensuring the uniformity of measurements. Optics and photonics. Interferometric measurement of optical elements and optical systems. Part 2. Measurement and evaluation techniques
• GOST 14686-1969 Means of measurements for luminous quantities. Terms
• GOST R ISO 17123-4-2011 State system for ensuring the uniformity of measurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 4. Elektro-optical distance meters (EDM instruments)
• GOST R 8.744-2011 State system for ensuring the uniformity of measurements. Optics and photonics. Interferometric measurement of optical elements and optical systems. Part 3. Calibration and validation of interferometric test equipment and measurements
• GOST R 8.743-2011 State system for ensuring the uniformity of measurements. Optics and photonics. Interferometric measurement of optical elements and systems. Part 1. Terms, definitions and fundamental relationships
• GOST R ISO 17123-1-2011 State system for ensuring the uniformity of measurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 1. Theory
• GOST 16274.9-1977 Bismuth. Spectrochemical method for determination of gold content
• GOST 20997.5-1981 Thallium. Method of chemical-spectral determination of tin
• GOST R ISO 17123-2-2011 State system for ensuring the uniformity of measurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 2. Levels
• GOST R ISO 17123-3-2011 State system for ensuring the uniformity of measurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 3. Theodolites
• GOST R ISO 17123-7-2011 State system for ensuring the uniformity of measurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 7. Optical plumbing instruments
• GOST R 59606-2021 Optics and photonics. Photodetector devices of second and next-generations. Methods for photoelectric parameters measuring and determination of characteristics
• GOST R 59607-2021 Optics and photonics. Semiconducting photoelectric detectors. Photoelectric and photoreceiving devices. Methods of measuring photoelectric parameters and determining characteristics
• GOST R 59740-2021 Optics and photonics. Semiconductor lasers for the determination of low concentrations of substances. Methods for measuring characteristics
• GOST R ISO 17123-6-2011 State system for ensuring the uniformity of meansurements. Optics and optical instruments. Field procedures for testing geodetic and surveying instruments. Part 6. Rotating lasers
• GOST R 53433-2009 Optics ophthalmic.Lenses contact. Methods of measurement
• GOST 31588.3-2012 Ophthalmic optics. Contact lenses. Methods of measurement

German Institute for Standardization, Advantages of optical measurement

• DIN ISO 11421:2005 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement (ISO 11421:1997)
• DIN ISO 9335:2008 Optics and photonics - Optical transfer function - Principles and procedures of measurement (ISO 9335:1995+Cor. 1:2005);English version of DIN ISO 9335:2008-04
• DIN ISO 9039:2008 Optics and photonics - Quality evaluation of optical systems - Determination of distortion (ISO 9039:2008)
• DIN ISO 9039:2008-08 Optics and photonics - Quality evaluation of optical systems - Determination of distortion (ISO 9039:2008)
• DIN 51866-1:2000 Temperature measurement - Part 1: Survey of laser spectroscopic methods
• DIN ISO 11421:2010-10 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement (ISO 11421:1997)
• DIN 58963-1:1990-05 Optical cells for photometric measurements; concepts
• DIN ISO 11421:2010 Optics and optical instruments - Accuracy of optical transfer function (OTF) measurement (ISO 11421:1997)
• DIN ISO 9335:2015 Optics and photonics - Optical transfer function - Principles and procedures of measurement (ISO 9335:2012)
• DIN ISO 17123-4:2017-09 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 4: Electro-optical distance meters (EDM measurements to reflectors) (ISO 17123-4:2012)
• DIN ISO 9358:2021-08 Optics and optical instruments - Veiling glare of image-forming systems - Definitions and methods of measurement (ISO 9358:1994)
• DIN EN ISO 24013:2007 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2006); English version of DIN EN ISO 24013:2007-02
• DIN ISO 17123-2:2021-02 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 2: Levels (ISO 17123-2:2001); Text in German and English / Note: Date of issue 2021-01-08
• DIN 58186:1982 Quality evaluation of optical systems; determination of veiling glare
• DIN EN ISO 24013:2007-02 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2006); German version EN ISO 24013:2006 / Note: To be replaced by DIN EN ISO 24013 (2022-09).
• DIN EN ISO 24013:2022-09 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO/DIS 24013:2022); German and English version prEN ISO 24013:2022 / Note: Date of issue 2022-08-12*Inten...
• DIN ISO 17123-4:2017 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 4: Electro-optical distance meters (EDM measurements to reflectors) (ISO 17123-4:2012)
• DIN 67519:1970 Actinity in the field of optics; definition, measurement, application
• DIN EN ISO 24013:2023-11 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2023); German version EN ISO 24013:2023
• DIN EN ISO 12732:2008 Corrosion of metals and alloys - Electrochemical potentiokinetic reactivation measurement using the double loop method (based on Cihal's method) (ISO 12732:2006); German version EN ISO 12732:2008
• DIN ISO/TR 21477:2018-08*DIN SPEC 13477:2018-08 Optics and photonics - Preparation of drawings for optical elements and systems - Surface imperfection specification and measurement Systems (ISO/TR 21477:2017)
• DIN ISO 17123-1:2017 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 1: Theory (ISO 17123-1:2014)
• DIN ISO 17123-2:2023-12 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 2: Levels (ISO 17123-2:2001)
• DIN ISO 10109-7:2002 Optics and optical instruments - Environmental requirements - Part 7: Test requirements for optical measuring systems (ISO 10109-7:2001)
• DIN ISO 15529:2010-11 Optics and photonics - Optical transfer function - Principles of measurement of modulation transfer function (MTF) of sampled imaging systems (ISO 15529:2010)
• DIN ISO 17123-3:2019 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 3: Theodolites (ISO 17123-3:2001)
• DIN ISO 17123-2:2021 Optics and optical instruments - Field procedures for testing geodetic and surveying instruments - Part 2: Levels (ISO 17123-2:2001); Text in German and English
• DIN ISO 14999-4 Beiblatt 1:2020-04 Optics and photonics - Interferometric measurement of optical elements and optical systems - Part 4: Interpretation and evaluation of tolerances specified in ISO 10110; Supplement 1
• DIN-Fachbericht ISO/TR 28980:2007 Ophthalmic optics - Spectacle lenses - Parameters affecting lens power measurement; German version ISO/TR:28980:2007

Professional Standard - Machinery, Advantages of optical measurement

• JB/T 5667-1991 Optics and optical instruments - Geodetic instruments - Vocabulary
• JB/T 9495.7-1999 Measuring method for optical homogeneity of optical crystals
• JB/T 9342-1999 Gauge hat for optical metrical instrument
• JB/T 9495.6-1999 Measuring method for coefficient of optical absorption of optical crystals
• JB/T 9395.3-1999 Measuring method for transmittance of optical crystal
• JB/T 9495.3-1999 Measuring method for transmittance of optical crystal
• JB/T 9495.2-1999 Measuring method for refractive index of optical crystals
• JB/T 2542-1991 General specification for optomechanical micrometer devices for optical metrology instruments

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Advantages of optical measurement

• GB/T 26596-2011 Optics and optical instruments.Geodetic and surveying instruments.Vocabulary
• GB/T 10988-2009 Veiling glare of optical systems.Methods of measurement
• GB/T 11297.12-2012 Test method for extinction ratio of optical crystal
• GB/T 42219-2022 Optical measurement of high-power LED
• GB/T 13742-2009 Accuracy of optical transfer function(OTF)measurement
• GB/T 15638-1995 Specification for optical densitometric measurements of printed maps
• GB/T 18311.31-2007 Fibre optic interconnecting devices and passive components Basic test and measurement procedures Part 3-31 : Examinations and measurements Coupled power ratio measurement for fibre optic sources

European Committee for Standardization (CEN), Advantages of optical measurement

• EN 21683:1994 Acoustics - Preferred Reference Quantities for Acoustic Levels (ISO 1683 : 1983)
• EN ISO 15682:2001 Water Quality - Determination of Chloride by Flow Analysis (CFA and FIA) and Photometric or Potentiometric Detection
• EN ISO 24013:2006 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation
• prEN ISO 24013 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO/DIS 24013:2022)
• EN ISO 24013:2023 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2023)

VDI - Verein Deutscher Ingenieure, Advantages of optical measurement

• VDI/VDE 3519 BLATT 14-2012 Fuellstandmesstechnik - Optische Verfahren
• VDI/VDE/DGZfP 2633-2000 Optische Formerfassung - Systemanforderung - Vorlage fuer ein Lastenheft
• VDI/VDE 3519 Blatt 14-2011 Level measurement - Optical methods
• VDI/VDE 5575 Blatt 2-2013 Roentgenoptische Systeme - Messverfahren - Messaufbau und Methoden zur Bewertung roentgenoptischer Systeme
• VDI/VDE 2617 Blatt 6.2-1999 Accuracy of coordinate measuring machines - Characteristic parameters and their checking - Coordinate measuring machines with optical probes - Optical sensors for one-dimensional distance measurement

Military Standard of the People's Republic of China-General Armament Department, Advantages of optical measurement

• GJB 8377-2015 Measurement method of the sky luminance

International Commission on Illumination (CIE), Advantages of optical measurement

• CIE 18.2-1983 Basis of Physical Photometry (E)

CZ-CSN, Advantages of optical measurement

• CSN 19 6080-1959 Set of color filters camera optical measurement instrument optical device scale
• CSN 71 0127-1954 Optical glass refractive index. differential measurement method
• CSN 71 0125-1957 Optical glass refractive index, measured difference
• CSN 36 0012-1969 Measurements of Luminous Flux and Electrical Characteristics of Incandescent (Electric) Lamps, Fluorescent Lamps and Mercury Lamps

GOSTR, Advantages of optical measurement

• GOST R 58563-2019 Optics and photonics. Lasers and laser-related equipment. Methods for measurement of absorption-induced effects in laser optical components
• GOST 7329-1991 Chemical laboratory and electrovacuum glassware. Polarizable and optical method of path-length difference measuring
• GOST R 58372-2019 Optics and photonics. Lasers and laser-related equipment. Methods for determination of laser-induced damage threshold. Part 4. Inspection, detection and measurement

Defense Logistics Agency, Advantages of optical measurement

• DLA MIL-STD-1678-2 CHANGE 1-2011 FIBER OPTIC CABLING SYSTEMS REQUIREMENTS AND MEASUREMENTS (Part 2: OPTICAL MEASUREMENTS)

HU-MSZT, Advantages of optical measurement

• MSZ 17060-1976 Measurement of optical technical characteristics of electric light sources
• MNOSZ 11169-1952 Mechanical industry measuring equipment optical protractor
• MSZ 4900/6-1971 Physical quantity names, symbols and measuring bodies. Optics

Group Standards of the People's Republic of China, Advantages of optical measurement

• T/CHES 34-2020 Calibration specification for optical sand concentration measuring instrument
• T/CVIA 72-2019 Measurement method of optical index of laser TV light source module
• T/ZS 0110-2020 Optical Measuring System for Structural Geometric Parameters
• T/CIES 025-2020 Measurement Methods of Photometric Performance for Plant LED lighting Products
• T/JYBZ 025-2022 Test method for luminous environment of primary & secondary school classroom

Association of German Mechanical Engineers, Advantages of optical measurement

• VDI/VDE 2634 Blatt 2-2002 Optical 3D-measuring systems - Optical systems based on area scanning
• VDI/VDE 2634 Blatt 2-2012 Optical 3-D measuring systems - Optical systems based on area scanning
• VDI/VDE/DGQ 2618 Blatt 6.1-2009 Inspection of measuring and test equipment - Test instruction for optical flats and optical parallels
• VDI/VDE 5575 Blatt 2-2015 X-ray optical systems - Measurement methods - Measurement set-up and methods for the evaluation of X-ray optical systems

Danish Standards Foundation, Advantages of optical measurement

• DS/EN ISO 24013:2007 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation
• DS/EN 62496-2-2:2011 Optical circuit boards - Part 2-2: Measurements - Dimensions of optical circuit boards

National Metrological Verification Regulations of the People's Republic of China, Advantages of optical measurement

• JJG 754-2005 Measuring Equipment for Optical Transfer Function

IN-BIS, Advantages of optical measurement

• IS 7009-1973 Optical square specifications (for measurement)

SAE - SAE International, Advantages of optical measurement

• SAE R-406-2012 Laser Diagnostics and Optical Measurement Techniques in Internal Combustion Engines

International Electrotechnical Commission (IEC), Advantages of optical measurement

• IEC 62496-2:2017 Optical circuit boards - Basic test and measurement procedures - Part 2: General guidance for definition of measurement conditions for optical characteristics of optical circuit boards
• IEC 61988-2-1:2012 Plasma Display Panels - Part 2-1: Measuring methods - Optical and optoelectrical
• IEC 62496-2-2:2011 Optical circuit boards - Part 2-2: Measurements - Dimensions of optical circuit boards

European Committee for Electrotechnical Standardization（CENELEC）, Advantages of optical measurement

• EN 62496-2-2:2011 Optical circuit boards - Part 2-2: Measurements - Dimensions of optical circuit boards

National Metrological Technical Specifications of the People's Republic of China, Advantages of optical measurement

• JJF 1933-2021 Calibration Specification for Optical Shaft Measuring Instrument

国家市场监督管理总局、中国国家标准化管理委员会, Advantages of optical measurement

• GB/T 41070-2021 Lenticular lens film for autostereoscopic 3D display—Optical measurement method

Lithuanian Standards Office , Advantages of optical measurement

• LST EN ISO 24013:2007 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2006)

AENOR, Advantages of optical measurement

• UNE-EN ISO 24013:2007 Optics and photonics - Lasers and laser-related equipment - Measurement of phase retardation of optical components for polarized laser radiation (ISO 24013:2006)

Aerospace Industries Association/ANSI Aerospace Standards, Advantages of optical measurement

• AIA/NAS NAS 885-1982 Scales for Optical Tooling

BR-ABNT, Advantages of optical measurement

• ABNT MB-1284-1979 Preparing standard prints for optical measurements

CEN - European Committee for Standardization, Advantages of optical measurement

• EN ISO 13694:2018 Optics and photonics - Lasers and laser-related equipment - Test methods for laser beam power (energy) density distribution

YU-JUS, Advantages of optical measurement

• JUS C.A1.232-1990 Methods for chemical analysis of cadmium. Determination of copper content. Spectrophotometric method
• JUS C.A1.234-1990 Methods for chemical analysis of cadinium. Determination of thallium content. Spectrophotometric method
• JUS C.A1.239-1990 Methods for chemical analysis of cadmium. Determination of tin content. Spectrophotometric method

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