MEASURAND : Spectral responsivity
WAVELENGTH : 900 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 950 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1000 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1050 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1100 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1150 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1200 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1250 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1300 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1350 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1400 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1450 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1500 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1550 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 1600 nm

Degrees of equivalence relative to the key comparison reference value, Di and Ui its expanded uncertainty (k = 2), both expressed in %

MEASURAND : Spectral responsivity
WAVELENGTH : 900 nm

   
Lab iDiUi
 / %/ %
LNE-1.30.6
NMISA0.12.6
NMIA-0.80.4
HUT-0.43.1
IFA-CSIC1.91.3
KRISS0.10.8
NIM3.51.4
NIST0.00.4
VSL0.71.2
NPL0.40.4
NRC0.70.4
MKEH0.02.8
PTB-0.10.4
SMU0.10.6
VNIIOFI0.31.2

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 950 nm

   
Lab iDiUi
 / %/ %
LNE-1.20.5
NMISA0.12.6
NMIA-0.30.3
HUT0.93.6
IFA-CSIC1.51.2
KRISS0.10.8
NIM1.30.9
NIST0.11.3
VSL0.20.9
NPL0.50.3
NRC0.00.3
MKEH-0.42.8
PTB-0.20.3
SMU0.50.5
VNIIOFI-1.01.0

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1000 nm

   
Lab iDiUi
 / %/ %
LNE-1.10.5
NMISA0.12.6
NMIA-0.40.3
HUT-0.13.5
IFA-CSIC1.31.2
KRISS0.30.8
NIM1.30.9
NIST-0.20.9
VSL0.50.9
NPL0.10.3
NRC0.10.2
MKEH-0.22.8
PTB0.10.3
SMU0.40.4
VNIIOFI-0.81.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1050 nm

   
Lab iDiUi
 / %/ %
LNE-1.10.5
NMISA0.22.2
NMIA-0.30.3
HUT0.53.5
IFA-CSIC1.51.2
KRISS0.01.0
NIM0.80.8
NIST0.20.9
VSL0.30.8
NPL0.10.3
NRC0.10.2
MKEH0.63.5
PTB0.10.3
SMU0.20.4
VNIIOFI-0.91.3

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1100 nm

   
Lab iDiUi
 / %/ %
LNE-1.00.5
NMISA-0.12.2
NMIA-0.30.3
HUT-0.13.5
IFA-CSIC1.51.2
KRISS0.11.0
NIM0.30.9
NIST0.00.5
VSL0.30.6
NPL0.20.3
NRC0.00.2
MKEH0.83.3
PTB0.10.3
SMU0.20.4
VNIIOFI-1.21.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1150 nm

   
Lab iDiUi
 / %/ %
LNE-1.00.5
NMISA0.32.2
NMIA-0.10.3
HUT0.23.5
IFA-CSIC1.41.2
KRISS0.11.0
NIM0.00.8
NIST0.10.8
VSL0.20.5
NPL0.20.3
NRC0.00.2
MKEH0.73.5
PTB0.20.2
SMU0.20.4
VNIIOFI-1.51.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1200 nm

   
Lab iDiUi
 / %/ %
LNE-0.70.5
NMISA0.02.2
NMIA-0.30.2
HUT0.43.5
IFA-CSIC1.61.2
KRISS0.11.0
NIM-0.30.9
NIST0.01.5
VSL0.10.5
NPL0.30.3
NRC-0.10.2
MKEH0.73.4
PTB0.20.2
SMU0.20.4
VNIIOFI-1.91.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1250 nm

   
Lab iDiUi
 / %/ %
LNE-0.80.5
NMISA0.12.0
NMIA-0.40.2
HUT0.03.5
IFA-CSIC1.51.2
KRISS0.01.0
NIM-0.40.8
NIST0.10.9
VSL0.20.4
NPL0.20.3
NRC0.00.2
MKEH0.33.4
PTB0.30.2
SMU0.20.4
VNIIOFI-2.01.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1300 nm

   
Lab iDiUi
 / %/ %
LNE-0.80.5
NMISA0.22.0
NMIA-0.30.2
HUT0.03.5
IFA-CSIC1.51.2
KRISS0.21.0
NIM-0.30.8
NIST0.10.9
VSL0.20.4
NPL0.20.3
NRC0.00.1
MKEH0.53.4
PTB0.10.2
SMU0.20.4
VNIIOFI-2.21.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1350 nm

   
Lab iDiUi
 / %/ %
LNE-0.60.5
NMISA0.82.0
NMIA-0.20.2
HUT0.53.5
IFA-CSIC1.41.2
KRISS-0.11.0
NIM-0.50.8
NIST0.30.9
VSL0.10.4
NPL0.30.3
NRC0.00.2
MKEH0.53.4
PTB0.20.2
SMU0.10.4
VNIIOFI-2.61.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1400 nm

   
Lab iDiUi
 / %/ %
LNE-0.60.5
NMISA1.02.0
NMIA-0.30.3
HUT-0.23.5
IFA-CSIC1.41.1
KRISS-0.11.0
NIM-0.50.8
NIST0.51.2
VSL0.20.4
NPL0.20.3
NRC0.00.2
MKEH0.83.3
PTB0.20.2
SMU0.10.4
VNIIOFI-1.21.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1450 nm

   
Lab iDiUi
 / %/ %
LNE-0.80.5
NMISA1.42.0
NMIA-0.30.2
HUT-0.13.5
IFA-CSIC1.51.2
KRISS0.11.0
NIM-0.70.9
NIST0.60.9
VSL0.20.4
NPL0.20.4
NRC0.20.2
MKEH0.93.4
PTB0.00.2
SMU0.20.4
VNIIOFI-2.81.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1500 nm

   
Lab iDiUi
 / %/ %
LNE-0.70.5
NMISA1.72.0
NMIA-0.30.3
HUT0.13.5
IFA-CSIC1.31.2
KRISS0.31.0
NIM-0.71.0
NIST0.91.0
VSL0.30.4
NPL0.30.3
NRC0.10.2
MKEH0.63.4
PTB0.10.2
SMU0.10.4
VNIIOFI-3.21.2

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1550 nm

   
Lab iDiUi
 / %/ %
LNE-0.70.5
NMISA2.42.0
NMIA-0.40.3
HUT-0.13.5
IFA-CSIC1.41.2
KRISS0.01.0
NIM-0.91.1
NIST0.51.1
VSL0.30.8
NPL0.20.3
NRC0.10.2
MKEH-2.75.3
PTB0.30.2
SMU0.30.4
VNIIOFI-3.61.2

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

MEASURAND : Spectral responsivity
WAVELENGTH : 1600 nm

   
Lab iDiUi
 / %/ %
LNE-0.60.5
NMISA3.22.0
NMIA-0.30.3
HUT-0.63.5
IFA-CSIC1.61.2
KRISS0.31.1
NIM-0.91.2
NIST0.71.3
VSL0.41.4
NPL0.20.4
NRC0.40.2
MKEH-2.06.0
PTB0.40.3
SMU0.20.4
VNIIOFI-4.01.1

Results are presented under A4 printable format in Summary Results (.PDF file).

Unless otherwise stated, in the final numbers presented here, rounding has been applied according to ISO-31-0 Annex B Rule B.

Comparison
Comparison close
CC comparison
Linked comparison
EURAMET.PR-K2.a
Metrology area, Sub-field Photometry and Radiometry, Radiometry
Description Spectral responsivity
Time of measurements 2010 - 2012
Status Approved for equivalence
References

EURAMET.PR-K2.a Technical protocol

Measurand Spectral responsivity
Parameters Wavelength from 900 nm to 1600 nm
Transfer device Germanium photodiodes
Comparison type Key Comparison
Consultative Committee CCPR (Consultative Committee for Photometry and Radiometry)
Conducted by EURAMET (European Association of National Metrology Institutes)
Comments CCPR-K2.a-2003 in the report refers to CCPR-K2.a.
 
Pilot institute VSL
VSL
Netherlands
Contact person Steven van den Berg
svdberg@vsl.nl
+31 15 269 1586
First Name Last Name
wwww@ww.www +356719836 Institute 1 Institute 1 Khmelnitskiy
Pilot laboratory
VSL

VSL, Netherlands, EURAMET

CMI

Czech Metrology Institute, Czechia, EURAMET

GUM

Glowny Urzad Miar, Central Office of Measures, Poland, EURAMET

JV

Justervesenet, Norway, EURAMET

NPL

National Physical Laboratory, United Kingdom, EURAMET

SP

Technical Research Institute of Sweden from 2017 Research Institutes of Sweden AB, Sweden, EURAMET

UME

TÜBITAK Ulusal Metroloji Enstitüsü, Turkey, EURAMET

MEASURAND : Spectral responsivity
WAVELENGTH : 900 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms: 
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 950 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1000 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1050 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1100 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1150 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1200 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1250 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1300 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1350 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1400 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1450 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1500 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1550 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 1600 nm

The key comparison reference value is calculated as a weighted mean with cut-off, excluding NMISA and KRISS results (see on page 80 of Section 7 of the CCPR-K2.a Final Report).
The value of the cut-off varies with the wavelength and is listed in table 7.17 on page 83 of the Final Report.

The degree of equivalence of each laboratory i with respect to the key comparison reference value is given by a pair of terms:
Di and Ui, its expanded uncertainty (k = 2), both expressed in %.

The degree of equivalence between two laboratories is given by a pair of terms:
Dij and Uij, its expanded uncertainty (k = 2), both expressed in %.

MEASURAND : Spectral responsivity
WAVELENGTH : 900 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 950 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1000 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1050 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1100 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1150 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1200 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1250 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1300 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1350 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1400 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1450 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1500 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1550 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.

MEASURAND : Spectral responsivity
WAVELENGTH : 1600 nm

The individual measurements of the participating laboratories are given in Section 4 of the CCPR-K2.a Final Report.
Examination and correction of the data are explained in Section 5.
The data analysis in given in Section 6 and is based on the calculation of the mean relative differences between each participant and the Pilot Laboratory, NIST, weighted by the transfer uncertainty of the measurements of each photodiode.