Федеральное агентство по техническому регулированию и метрологии РФ

ЦКП «ВНИИОФИ»
ФГУП «ВНИИОФИ» Центр коллективного пользования
Центр высокоточных измерительных технологий в области фотоники

Важным результатом реализации мероприятий по международному признанию измерительно-калибровочных возможностей ЦКП ВНИИОФИ является их включение в таблицу признанных международным метрологическим сообществом калибровочных возможностей (СМС-таблицы), которые публикуются на сайте Международного бюро мер и весов в Париже по результатам проведения международных сличений. ЦКП ВНИИОФИ имеет больше 100 измерительно-калибровочных возможностей, зарегистрированных в этих СМС-таблицах.

icone pdfСМС-таблица

 

Calibration or Measurement Service Measurand Level or Range Measurement Conditions/Independent Variable Expanded Uncertainty
Quantity Instrument or Artifact Instrument Type or Method Minimum value Maximum value Units Parameter Specifications Value Units Coverage factor Level of Confidence Is the expanded uncertainty a relative one? Comments NMI
Luminous intensity Tungsten source Photometric bench and reference lamps/photomete r 1 100 cd Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Luminous intensity Tungsten source Photometric bench and reference lamps/photomete r > 100 1000 cd Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Luminous intensity Tungsten source Photometric bench and reference lamps/photomete r > 1000 10000 cd Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Luminous intensity LED Photometric bench and reference LED and photometer 0,01 10 cd Peak wavelength (or white) white 1 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions CIE standard condition A/B
Luminous intensity LED Photometric bench and reference LED and photometer 0,01 10 cd Peak wavelength 420 nm to 490 nm (blue) 8,5 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions CIE standard condition A/B
Luminous intensity LED Photometric bench and reference LED and photometer 0,01 10 cd Peak wavelength 590 nm to 670 nm (red) 3,7 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions CIE standard condition A/B
Luminous intensity LED Photometric bench and reference LED and photometer 0,01 10 cd Peak wavelength 500 nm to 570 nm (green) 3,5 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions CIE standard condition A/B
Luminous intensity LED Photometric bench and reference LED and photometer 0,01 10 cd Peak wavelength 500 nm to 570 nm (diffuse green) 3 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions CIE standard condition A/B
Illuminance responsivity, tungsten source Illuminance meter Photometric bench and reference lamps A lx-1 Correlated 2856 K 0,86 % 2 95% Yes VNIIOFI
colour temperature
Illuminance 0.2 lx to 2000 lx
Luminous flux Tungsten light source Integrating sphere 1 100 lm Correlated 2000 K to 3200 K 1 % 2 95% Yes VNIIOFI
colour temperature
Luminous flux Tungsten light source Integrating sphere > 100 20000 lm Correlated 2000 K to 3200 K 1.0 to 2.0 % 2 95% Yes VNIIOFI
colour temperature
Luminous flux LED Integrating sphere 0,04 800 lm Peak wavelength (or white) white 2,5 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions full
Luminous flux LED Integrating sphere 0,04 800 lm Peak wavelength 420 nm to 490 nm (blue) 3,7 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions full
Luminous flux LED Integrating sphere 0,04 800 lm Peak wavelength 590 nm to 670 nm (red) 4 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions full
Luminous flux LED Integrating sphere 0,04 800 lm Peak wavelength 500 nm to 570 nm (green) 3,1 % 2 95% Yes Approved on 17 June 2013 VNIIOFI
Geometric measurement conditions full
Illuminance Tungsten light source Photometric bench and reference lamps/photomete r 0,1 500 lx Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Illuminance Tungsten light source Photometric bench and reference lamps/photomete r > 500 5000 lx Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Illuminance Tungsten light source Photometric bench and reference lamps/photomete r > 5000 20000 lx Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Illuminance Tungsten light source Photometric bench and reference lamps/photomete r > 20000 50000 lx Correlated 2000 K to 3200 K 0,86 % 2 95% Yes Other kind of sources can be measured VNIIOFI
colour temperature
Luminance Tungsten based source Telephotometer and reference lamp/calibrated diffuser combination 1 100 cd m-2 Correlated 2000 K to 3200 K 1,4 % 2 95% Yes Other kind of sources can be VNIIOFI
colour temperature measured including light sources based on integrating sphere
Luminance Tungsten based source Telephotometer and reference lamp/calibrated diffuser combination > 100 1000 cd m-2 Correlated 2000 K to 3200 K 1,4 % 2 95% Yes Other kind of sources can be VNIIOFI
colour temperature measured including light sources based on integrating sphere
Luminance Tungsten based source Telephotometer and reference lamp/calibrated diffuser combination > 1000 10000 cd m-2 Correlated 2000 K to 3200 K 1,4 % 2 95% Yes Other kind of sources can be VNIIOFI
colour temperature measured including light sources based on integrating sphere
Luminance responsivity Luminance meter Source based on integrating sphere 0.1E-03 0.1E-03 V cd-1 m2 Correlated 2856 K 1,5 % 2 95% Yes VNIIOFI
colour temperature
Luminance 20 cd m-2 to 2000 cd m-2
Responsivity, spectral, power Detectors Double monochromator with solid state working standards AW-1 Wavelength 200 nm to 240 nm 4 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, power Detectors Double monochromator with solid state working standards AW-1 Wavelength 240 nm to 380 nm 3 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, power Detectors Double monochromator with solid state working standards AW-1 Wavelength 380 nm to 405 nm 1 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, power Detectors Double monochromator with solid state working standards AW-1 Wavelength 405 nm to 920 nm 0,5 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, power Detectors Double monochromator with solid state working standards AW-1 Wavelength 900 nm to 1600 nm 2.0 to 4.8 % 2 95% Yes Type of diodes: InGaAs VNIIOFI
Power < 20 mW
Responsivity, spectral, power UV power meters and detectors Single grating monochromator and filter AW-1 Wavelength 200 nm to 300 nm 8 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 2E-05 mW
Responsivity, spectral, power UV power meters and detectors Single grating monochromator and filter AW-1 Wavelength 300 nm to 400 nm 3 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 1E-04 mW
Responsivity, spectral, power UV power meters and detectors Single grating monochromator and filter AW-1 Wavelength 400 nm to 600 nm 0.5 to 1 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 3E-04 mW
Responsivity, spectral, irradiance UV power meters and detectors Single grating monochromator and filter AW-1cm2 Wavelength 200 nm to 300 nm 8 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 2E-05 mW
Responsivity, spectral, irradiance UV power meters and detectors Single grating monochromator and filter AW-1cm2 Wavelength 300 nm to 400 nm 3 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 1E-04 mW
Responsivity, spectral, irradiance UV power meters and detectors Single grating monochromator and filter AW-1cm2 Wavelength 400 nm to 600 nm 0.5 to 1 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level 3E-04 mW
Responsivity, spectral, irradiance Detectors Double monochromator with solid state working standards AW-1cm2 Wavelength 200 nm to 240 nm 4 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, irradiance Detectors Double monochromator with solid state working standards AW-1cm2 Wavelength 240 nm to 380 nm 3 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, irradiance Detectors Double monochromator with solid state working standards AW-1cm2 Wavelength 380 nm to 405 nm 1 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, irradiance Detectors Double monochromator with solid state working standards AW-1cm2 Wavelength 405 nm to 920 nm 0,5 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power < 20 mW
Responsivity, spectral, irradiance Detectors Double monochromator with solid state working standards AW-1cm2 Wavelength 900 nm to 1600 nm 2.0 to 4.8 % 2 95% Yes Type of diodes: InGaAs VNIIOFI
Power < 20 mW
Responsivity, spectral, irradiance Double monochromator with black thermal standard detectors Monochromator versus standard detectors AW-1m2 Wavelength 350 nm to 400 nm 1.0 to 1.5 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level < 20 μW
Responsivity, spectral, irradiance Double monochromator with black thermal standard detectors Monochromator versus standard detectors AW-1m2 Wavelength 400 nm to 1000 nm 0.5 to 1 % 2 95% Yes Type of diodes: Si (Hamamatsu) VNIIOFI
Power level < 20 μW
Responsivity, spectral, irradiance Double monochromator with black thermal standard detectors Monochromator versus standard detectors AW-1m2 Wavelength 1000 nm to 1700 nm 2 % 2 95% Yes Type of diodes: InGaAs VNIIOFI
Power level < 20 μW
Responsivity, spectral, irradiance Double monochromator with black thermal standard detectors Monochromator versus standard detectors AW-1m2 Wavelength 1700 nm to 1800 nm 4 % 2 95% Yes Type of diodes: Ge VNIIOFI
Power level < 20 μW
Responsivity, laser, power General detector Reference detectors V/W or A/W or Reading/W Wavelength 532 nm 0,7 % 2 95% Yes Approved on 22 February 2013 VNIIOFI
Power level 0.02 W to 2 W
Type of detector calorimeter
Responsivity, laser, power General detector Reference detectors V/W or A/W or Reading/W Wavelength 1.064 μm 0,62 % 2 95% Yes Approved on 22 February 2013 VNIIOFI
Power level 0.02 W to 2 W
Type of detector calorimeter
Responsivity, laser, power General detector Reference detectors V/W or A/W or Reading/W Wavelength 10.6 μm 0,5 % 2 95% Yes Approved on 22 February 2013 VNIIOFI
Power level 0.02 W to 2 W
Type of detector calorimeter
Responsivity, solar, irradiance General detector Reference radiometer V/(W/m2) or Irradiance level 800 W/m2 to 1000 W/m2 0,15 % 2 95% Yes Approved on 03 October 2012 VNIIOFI
Reading/( W/m2)
Type of detector pyrheliometer, radiometer
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+04 3,00E+06 W/m3 Wavelength range 250 nm to 300 nm 3.0 to 1.5, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+05 2,00E+07 W/m3 Wavelength range 300 nm to 350 nm 1.5 to 1.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 5,00E+05 2,00E+08 W/m3 Wavelength range 350 nm to 500 nm 1 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+06 2,00E+09 W/m3 Wavelength range 500 nm to 850 nm 1.0 to 0.8, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+07 2,00E+09 W/m3 Wavelength range 850 nm to 1000 nm 0.8 to 1.1, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+07 2,00E+09 W/m3 Wavelength range 1000 nm to 1100 nm 1.1 to 1.4, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+07 2,00E+09 W/m3 Wavelength range 1100 nm to 1400 nm 1.4 to 1.8, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 10 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+07 2,00E+09 W/m3 Wavelength range 1400 nm to 1600 nm 1.8 to 1.6, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 10 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 1,00E+07 1,00E+09 W/m3 Wavelength range 1600 nm to 2000 nm 1,6 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 20 nm
Irradiance, spectral Tungsten lamp Spectral irradiance reference source 5,00E+06 5,00E+08 W/m3 Wavelength range 2000 nm to 2500 nm 1.6 to 2.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 20 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+05 1,00E+11 W/(m3 sr) Wavelength range 220 nm to 350 nm 2.5 to 1.5, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 3 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+06 1,00E+12 W/(m3 sr) Wavelength range 350 nm to 800 nm 1.5 to 0.7, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 3 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+08 1,00E+12 W/(m3 sr) Wavelength range 800 nm to 1100 nm 0,7 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 3 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+08 1,00E+12 W/(m3 sr) Wavelength range 1100 nm to 1600 nm 0.7 to 1.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5.5 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+08 1,00E+11 W/(m3 sr) Wavelength range 1600 nm to 2000 nm 0,9 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 11 nm
Radiance, spectral Tungsten lamp Spectral radiance reference source 1,00E+08 1,00E+11 W/(m3 sr) Wavelength range 2000 nm to 2500 nm 1,1 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 11 nm
Radiance, spectral Deuterium lamp Spectral radiance reference source 3.5E+06 2.0E+10 W/(m3 sr) Wavelength range 220 nm to 250 nm 5.0 to 4.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 2 nm
Radiance, spectral Deuterium lamp Spectral radiance reference source 1.5E+07 8.0E+09 W/(m3 sr) Wavelength range 250 nm to 300 nm 4.0 to 3.5, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 2 nm
Radiance, spectral Deuterium lamp Spectral radiance reference source 1.0E+05 6.0E+11 W/(m3 sr) Wavelength range 300 nm to 400 nm 3.5 to 4.5, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 2 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+03 1,00E+06 W/(m sr) Wavelength range 250 nm to 300 nm 3.0 to 1.5, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+04 1,00E+07 W/(m sr) Wavelength range 300 nm to 350 nm 1.5 to 1.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 1,00E+05 1,00E+08 W/(m sr) Wavelength range 350 nm to 500 nm 1 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+05 1,00E+09 W/(m sr) Wavelength range 500 nm to 850 nm 1.0 to 0.8, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+06 1,00E+09 W/(m sr) Wavelength range 850 nm to 1000 nm 0.8 to 1.1, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+06 1,00E+09 W/(m sr) Wavelength range 1000 nm to 1100 nm 1.1 to 1.4, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 5 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+06 1,00E+09 W/(m sr) Wavelength range 1100 nm to 1400 nm 1.4 to 1.8, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 10 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+06 1,00E+09 W/(m sr) Wavelength range 1400 nm to 1600 nm 1.8 to 1.6, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 10 nm
Radiant intensity, spectral Tungsten lamp Reference source 2,00E+06 1,00E+09 W/(m sr) Wavelength range 1600 nm to 2000 nm 1,6 % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 20 nm
Radiant intensity, spectral Tungsten lamp Reference source 1,00E+06 2,00E+08 W/(m sr) Wavelength range 2000 nm to 2500 nm 1.6 to 2.0, varies with wavelength % 2 95% Yes Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Bandwidth < 20 nm
Transmittance regular, spectral Filter or material Reference spectrometer 1 94 % Wavelength 380 nm to 1000 nm 0,05 % 2 95% No VNIIOFI
Bandwidth 1.5 nm to 20 nm
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 360 nm to 460 nm 0.95 to 0.71, varies % 2 95% Yes Approved on 12 March 2014 VNIIOFI
with wavelength
Bandwidth 8 nm
Geometry d/0
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 460 nm to 480 nm 0,71 % 2 95% Yes Approved on 12 March 2014 VNIIOFI
Bandwidth 8 nm
Geometry d/0
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 480 nm to 520 nm 0.71 to 0.62, varies % 2 95% Yes Approved on 12 March 2014 VNIIOFI
with wavelength
Bandwidth 8 nm
Geometry d/0
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 520 nm to 640 nm 0.62 to 0.57, varies % 2 95% Yes Approved on 12 March 2014 VNIIOFI
with wavelength
Bandwidth 8 nm
Geometry d/0
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 640 nm to 800 nm 0.57 to 0.50, varies with wavelength % 2 95% Yes Approved on 12 March 2014 VNIIOFI
Bandwidth 8 nm
Geometry d/0
Reflectance, diffuse, spectral Spectrally- neutral material Absolute sphere reflectometer 0,1 1 Wavelength range 800 nm to 820 nm 0.50 to 0.53, varies % 2 95% Yes Approved on 12 March 2014 VNIIOFI
with wavelength
Bandwidth 8 nm
Geometry d/0
Distribution temperature Tungsten lamp Reference lamp 1200 3200 K 5.0 to 19.0, varies with measurand K 2 95% No Approved on 03 October 2012 VNIIOFI
Correlated color temperature Tungsten lamp Reference lamp 1800 3200 K 5.0 to 15.0, varies with measurand K 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Correlated color temperature response Color temperature meters Reference source reading/K Type of source tungsten lamps 10.0 to 20.0 K 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
CCT range 1800 K to 3200 K
Correlated color temperature response Color temperature meters Reference source reading/K Type of source discharge lamps, displays and LEDs 10.0 to 50.0, varies with CCT and source K 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
CCT range 2300 K to 8000 K
Colour, emitted, colour space: x, General source Spectroradiomet er 0 0,9 Bandwidth 5 nm 0.001 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
y
Type of source tungsten lamps
Colour, emitted, General source Spectroradiomet er 0 0,9 Bandwidth 1 nm to 5 nm 0.005 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
colour space: x, y
Type of source discharge lamps, displays, LEDs
Colour, emitted, colour space: u, v General source Spectroradiomet er 0 0,9 Bandwidth 5 nm 0.001 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Type of source tungsten lamps
Colour, emitted, colour space: u, v General source Spectroradiomet er 0 0,9 Bandwidth 1 nm to 5 nm 0.005 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Type of source discharge lamps, displays, LEDs
Colour, emitted, colour space: u', v' General source Spectroradiomet er 0 0,9 Bandwidth 5 nm 0.001 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Type of source tungsten lamps
Colour, emitted, colour space: u', v' General source Spectroradiomet er 0 0,9 Bandwidth 1 nm to 5 nm 0.005 to 0.0005, varies with measurand 2 95% No Other types of source can also be measured with uncertainty evaluated for specific sources Approved on 03 October 2012 VNIIOFI
Type of source discharge lamps, displays, LEDs
fixed point temperature and total radiation comparator
Cavity aperture diameter > 8 mm
Pressure 1.33E-03 Pa
Wavelength range 0.8 μm to 14 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
Cavity aperture diameter > 8 mm
Wavelength range 0.3 μm to 50 μm
variable temperature and total radiation comparator
Cavity aperture diameter > 8 mm
Pressure 1.33E-03 Pa
Wavelength range 0.8 μm to 14 μm
variable temperature and total radiation comparator
Cavity aperture diameter > 8 mm
Wavelength range 0.3 jm to 50 jm
Chromatic dispersion Optical fibre Phase shift -300 50 ps/nm Wavelength range 1260 nm to 1360 nm 0,62 ps/nm 2 95% No Approved on 10 December 2013 VNIIOFI
Chromatic dispersion Optical fibre Phase shift -40 230 ps/nm Wavelength range 1510 nm to 1574 nm 0,62 ps/nm 2 95% No Approved on 10 December 2013 VNIIOFI
Chromatic dispersion, zero wavelength Optical fibre Phase shift 1260 1360 nm Wavelength range 1260 nm to 1360 nm 0,15 nm 2 95% No Approved on 10 December 2013 VNIIOFI
Chromatic dispersion, zero wavelength Optical fibre Phase shift 1510 1574 nm Wavelength range 1510 nm to 1574 nm 0,2 nm 2 95% No Approved on 10 December 2013 VNIIOFI
Chromatic dispersion, slope Optical fibre Phase shift 0,25 2 ps/nm2 Wavelength range 1260 nm to 1360 nm 0,008 ps/nm2 2 95% No Approved on 10 December 2013 VNIIOFI
Chromatic dispersion, slope Optical fibre Phase shift 0,25 2 ps/nm Wavelength range 1510 nm to 1574 nm 0,009 ps/nm 2 95% No Approved on 10 December 2013 VNIIOFI