CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 961 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
Red diamonds: participants in CCT-K5
Green triangle: participant in CCT-K5.1
Orange squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)Grey squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1000 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1064 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
Red diamonds: participants in CCT-K5
Green triangle: participant in CCT-K5.1
Orange squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)Grey squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
CCT-K5, CCT-K5.1, APMP.T-K5, COOMET.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1084 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
Red diamonds: participants in CCT-K5
Green triangle: participant in CCT-K5.1
Blue circle: participant in APMP.T-K5
Purple circle: participant in COOMET.T-K5.1
Orange squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey squares: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1100 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1200 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1300 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1400 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1500 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1600 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1700 °C
Degrees of equivalence:
Di and expanded uncertainty Ui (k = 2), both expressed in K
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 961 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.010 | 0.227 |
NPL | -0.124 | 0.310 |
NMIA | -0.095 | 0.123 |
KRISS | -0.050 | 0.255 |
NIM | 0.055 | 0.259 |
A*STAR | -0.480 | 0.319 |
NMIJ | 0.010 | 0.263 |
VNIIM | 0.555 | 0.333 |
NIST | - | - |
CENAM | 0.091 | 0.433 |
LNE-INM | -0.294 | 0.350 |
INRIM | 0.111 | 0.171 |
PTB | 0.051 | 0.169 |
NRC | 0.131 | 0.511 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1000 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.002 | 0.221 |
NPL | -0.114 | 0.294 |
NMIA | -0.057 | 0.116 |
KRISS | -0.022 | 0.235 |
NIM | 0.088 | 0.279 |
A*STAR | -0.502 | 0.314 |
NMIJ | 0.053 | 0.258 |
VNIIM | 0.333 | 0.345 |
NIST | 0.151 | 0.487 |
CENAM | 0.051 | 0.449 |
LNE-INM | -0.304 | 0.366 |
INRIM | 0.111 | 0.179 |
PTB | -0.054 | 0.183 |
NRC | 0.081 | 0.559 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1064 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.033 | 0.257 |
NPL | -0.181 | 0.329 |
NMIA | -0.038 | 0.155 |
KRISS | 0.007 | 0.279 |
NIM | - | - |
A*STAR | -0.538 | 0.350 |
NMIJ | 0.062 | 0.291 |
VNIIM | -0.093 | 0.365 |
NIST | 0.134 | 0.536 |
CENAM | 0.104 | 0.515 |
LNE-INM | -0.316 | 0.401 |
INRIM | 0.129 | 0.206 |
PTB | -0.046 | 0.205 |
NRC | -0.061 | 0.597 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5, COOMET.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1084 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participant in APMP.T-K5
Purple: participant in COOMET.T-K5.1
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1100 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participant in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.017 | 0.250 |
NPL | -0.295 | 0.342 |
NMIA | -0.012 | 0.145 |
KRISS | 0.008 | 0.255 |
NIM | 0.158 | 0.339 |
A*STAR | -0.577 | 0.345 |
NMIJ | 0.103 | 0.287 |
VNIIM | -0.197 | 0.437 |
NIST | 0.235 | 0.556 |
CENAM | 0.070 | 0.531 |
LNE-INM | -0.320 | 0.424 |
INRIM | 0.100 | 0.216 |
PTB | -0.035 | 0.211 |
NRC | 0.000 | 0.637 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1200 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.055 | 0.262 |
NPL | -0.377 | 0.411 |
NMIA | -0.025 | 0.122 |
KRISS | 0.000 | 0.278 |
NIM | 0.085 | 0.379 |
A*STAR | -0.705 | 0.384 |
NMIJ | 0.145 | 0.320 |
VNIIM | -0.445 | 0.686 |
NIST | 0.183 | 0.632 |
CENAM | 0.003 | 0.628 |
LNE-INM | -0.427 | 0.445 |
INRIM | 0.048 | 0.222 |
PTB | 0.033 | 0.220 |
NRC | 0.088 | 0.696 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1300 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.045 | 0.322 |
NPL | -0.497 | 0.486 |
NMIA | 0.000 | 0.165 |
KRISS | 0.020 | 0.343 |
NIM | 0.140 | 0.437 |
A*STAR | -0.795 | 0.459 |
NMIJ | 0.210 | 0.393 |
VNIIM | -0.660 | 0.956 |
NIST | 0.164 | 0.719 |
CENAM | -0.047 | 0.755 |
LNE-INM | -0.492 | 0.580 |
INRIM | 0.064 | 0.284 |
PTB | 0.024 | 0.283 |
NRC | 0.129 | 0.835 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1400 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.045 | 0.385 |
NPL | -0.510 | 0.600 |
NMIA | 0.045 | 0.221 |
KRISS | 0.055 | 0.410 |
NIM | 0.195 | 0.522 |
A*STAR | -0.885 | 0.519 |
NMIJ | 0.310 | 0.473 |
VNIIM | -0.880 | 1.228 |
NIST | 0.260 | 0.815 |
CENAM | -0.050 | 0.906 |
LNE-INM | -0.510 | 0.629 |
INRIM | 0.115 | 0.352 |
PTB | 0.000 | 0.352 |
NRC | 0.070 | 0.968 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1500 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.082 | 0.414 |
NPL | -0.550 | 0.683 |
NMIA | 0.058 | 0.259 |
KRISS | 0.028 | 0.467 |
NIM | 0.213 | 0.593 |
A*STAR | -1.052 | 0.588 |
NMIJ | 0.353 | 0.538 |
VNIIM | -0.912 | 1.520 |
NIST | 0.336 | 0.918 |
CENAM | 0.000 | 1.026 |
LNE-INM | -0.580 | 0.730 |
INRIM | 0.146 | 0.396 |
PTB | -0.025 | 0.394 |
NRC | 0.211 | 1.055 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1600 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participants in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.113 | 0.452 |
NPL | -0.540 | 0.781 |
NMIA | 0.053 | 0.262 |
KRISS | 0.028 | 0.502 |
NIM | 0.238 | 0.660 |
A*STAR | -1.133 | 0.652 |
NMIJ | 0.443 | 0.599 |
VNIIM | -0.578 | 1.797 |
NIST | 0.591 | 1.014 |
CENAM | -0.005 | 1.224 |
LNE-INM | -0.615 | 0.820 |
INRIM | 0.126 | 0.436 |
PTB | 0.001 | 0.433 |
NRC | 0.121 | 1.146 |
Results are presented under A4 printable format in Summary Results (PDF file).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1700 °C
Degrees of equivalence relative to the CCT-K5 key comparison reference value:
Dark blue: participants in CCT-K5
Green: participant in CCT-K5.1
Blue: participant in APMP.T-K5
Orange: participants in EUROMET.T-K5 (measurements with Lamp S/N C564)
Grey: participants in EUROMET.T-K5 (measurements with Lamp S/N C681)
Pair-wise degrees of equivalence are computed for CCT-K5 and CCT-K5.1 only.
Lab i | Di | Ui |
/ K | / K | |
VSL | -0.235 | 0.480 |
NPL | -0.565 | 0.854 |
NMIA | 0.030 | 0.259 |
KRISS | 0.000 | 0.571 |
NIM | 0.250 | 0.740 |
A*STAR | -1.390 | 0.734 |
NMIJ | 0.455 | 0.667 |
VNIIM | 0.035 | 2.022 |
NIST | 0.500 | 1.129 |
CENAM | -0.170 | 1.321 |
LNE-INM | -0.805 | 0.892 |
INRIM | 0.005 | 0.482 |
PTB | -0.100 | 0.480 |
NRC | 0.015 | 1.313 |
Results are presented under A4 printable format in Summary Results (PDF file).
Metrology area, Sub-field | Thermometry, Pyrometry |
Description | Realizations of the ITS-90 between 961 °C and 1700 °C |
Time of measurements | 2001 - 2002 |
Status | Approved for equivalence |
Final Reports of the comparisons | |
Measurand | Temperature: 961 °C to 1700 °C |
Transfer device | Tungsten strip lamps |
Comparison type | Key Comparison |
Consultative Committee | CCT (Consultative Committee for Thermometry) |
Conducted by | CCT (Consultative Committee for Thermometry) |
Comments | This is a bilateral comparison between the PTB and the NRC to link the improved NRC scale to the results of the key comparison CCT-K5 CCT-K5.1 Final Report posted on 24 May 2006 Results published on 18 September 2008 CCT-K5.1, APMP.T-K5, COOMET.T-K5 and EUROMET.T-K5 results are linked to those of CCT-K5 Realizations of the ITS-90 between 961 °C and 1700 °C
|
Pilot institute |
PTB
Physikalisch-Technische Bundesanstalt Germany |
Contact person | J. Hartmann +49 30 3481 451 |
This page proposes print-out on A4 paper (portrait) of the comparison details (best printed out using a black and white printer).
Please, select items to be printed out, then click on "OK" :
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 961 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
There are no APMP.T-K5 results to be linked to those of CCT-K5 for this nominal temperature.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1000 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1064 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5, COOMET.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1084 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. N.B. Pair-wise degrees of equivalence are no longer issued. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The linkage is made through the common participation of VIIM in both key comparisons, and is detailed in the COOMET.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1100 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1200 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1300 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1400 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1500 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1600 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1700 °C
The key comparison reference value TR for each nominal temperature Tnom and each lamp k is calculated on the basis of the median of measured radiance temperatures Ti(k, Tnom). Its standard uncertainty, u(TR), is obtained as the standard uncertainty of the median.
For each temperature Tnom the degree of equivalence of laboratory i with respect to the key comparison reference value is given by a pair of terms: Di and its expanded uncertainty Ui (k = 2) both expressed in K. The computation of Di and Ui is explained in the Addendum to the CCT-K5 Final Report. |
For each temperature Tnom the pair-wise degree of equivalence between laboratories i and j is given by a pair of terms: Dij and its expanded uncertainty Uij (k = 2) both expressed in K. The computation of Dij and Uij is also explained in the Addendum to the CCT-K5 Final Report. |
The linkage is made through the common participation of PTB in both key comparisons, and is detailed in the CCT-K5 and CCT-K5.1 Linkage Report.
The linkage is made through the common participation of NMIJ, NIM, KRISS and NMIA in both key comparisons, and is detailed in the Addendum to the APMP.T-K5 Final Report.
The measurements of the EUROMET.T-K5 participants are directly linked to the key comparison reference value obtained in CCT-K5 as the protocols of the two key comparisons are identical and the transfer standards are the same (see in Chapter VII of the EUROMET.T-K5 Final Report).
Degrees of equivalence relative to the CCT-K5 key comparison reference values are computed for each of the transfer standards. Pair-wise degrees of equivalence inside EUROMET.T-K5 are available in the EUROMET.T-K5 Final Report (Tables 15 to 36).
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 961 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
964.660 0.16
Ti / °C
ui / °C
VSL
964.050
0.10
NMIA
963.950
0.02
KRISS
963.910
0.09
NIM
964.070
0.11
A*STAR
963.690
0.15
NMIJ
964.070
0.12
VNIIM
Lab i
Lamp S/N C681
964.070 0.16
Ti / °C
ui / °C
VSL
963.550
0.10
NMIA
963.480
0.02
KRISS
963.610
0.09
NIM
963.660
0.11
A*STAR
962.970
0.15
NMIJ
963.570
0.12
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
962.000
0.14
NIST
-
-
CENAM
962.260
0.21
LNE-INM
961.710
0.13
INRIM
962.360
0.07
PTB
962.340
0.15
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 962.22 °C, uNRC = 0.19 °C
Lamp S/N 644C, TNRC = 962.22 °C, uNRC = 0.19 °C
This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1000 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1002.568 0.16
Ti / °C
ui / °C
VSL
1002.078
0.10
NMIA
1001.998
0.02
KRISS
1001.978
0.09
NIM
1002.098
0.12
A*STAR
1001.678
0.15
NMIJ
1002.128
0.12
VNIIM
Lab i
Lamp S/N C681
1001.988 0.16
Ti / °C
ui / °C
VSL
1001.808
0.10
NMIA
1001.778
0.02
KRISS
1001.868
0.09
NIM
1001.968
0.12
A*STAR
1001.208
0.15
NMIJ
1001.868
0.12
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1000.124
0.14
NIST
1000.464
0.24
CENAM
1000.294
0.22
LNE-INM
999.754
0.14
INRIM
1000.414
0.08
PTB
1000.284
0.16
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 999.95 °C, uNRC = 0.20 °C
Lamp S/N 644C, TNRC = 1000.14 °C, uNRC = 0.20 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1064 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1066.325 0.16
Ti / °C
ui / °C
VSL
1066.205
0.11
NMIA
1066.165
0.02
KRISS
1066.145
0.10
NIM
-
-
A*STAR
1065.825
0.16
NMIJ
1066.305
0.13
VNIIM
Lab i
Lamp S/N C681
1065.889 0.16
Ti / °C
ui / °C
VSL
1066.129
0.11
NMIA
1066.159
0.02
KRISS
1066.269
0.10
NIM
-
-
A*STAR
1065.499
0.16
NMIJ
1066.219
0.13
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1064.114
0.15
NIST
1064.434
0.26
CENAM
1064.444
0.25
LNE-INM
1063.824
0.16
INRIM
1064.524
0.08
PTB
1064.354
0.17
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1064.45 °C, uNRC = 0.22 °C
Lamp S/N 644C, TNRC = 1064.46 °C, uNRC = 0.22 °C
No results were obtained for this nominal temperature by the three laboratories (A*STAR, KIM-LIPI and CMS/ITRI) which participated in APMP.T-K5 only: see Appendix B of the APMP.T-K5 Final Report.
This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5, COOMET.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1084 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
Lab i | Ti / °C | ui / °C |
VSL | 1086.602 | 0.11 |
NMIA | 1086.572 | 0.02 |
KRISS | 1086.562 | 0.08 |
NIM | - | - |
A*STAR | 1086.182 | 0.16 |
NMIJ | 1086.722 | 0.13 |
VNIIM |
1086.662 |
0.19 |
Lamp S/N C681
Lab i | Ti / °C | ui / °C |
VSL | 1086.522 | 0.11 |
NMIA | 1086.552 | 0.02 |
KRISS | 1086.642 | 0.08 |
NIM | - | - |
A*STAR | 1085.842 | 0.16 |
NMIJ | 1086.622 | 0.13 |
VNIIM |
1086.282 |
0.19 |
Lamp S/N C860
Lab i | Ti / °C | ui / °C |
NPL | 1085.207 | 0.15 |
NIST | - | - |
CENAM | 1085.517 | 0.26 |
LNE-INM | 1084.917 | 0.16 |
INRIM | 1085.607 | 0.09 |
PTB | 1085.497 | 0.17 |
Lamp S/N C864
Lab i | Ti / °C | ui / °C |
NPL | 1085.111 | 0.15 |
NIST | - | - |
CENAM | 1085.401 | 0.26 |
LNE-INM | 1085.191 | 0.16 |
INRIM | 1085.361 | 0.09 |
PTB | 1085.221 | 0.17 |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1084.85 °C, uNRC = 0.23 °C
Lamp S/N 644C, TNRC = 1084.98 °C, uNRC = 0.23 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000.
This bilateral comparison was carried out between VNIIM and NSC IM. The measurements were carried out from August to October 2014 using a vacuum tungsten ribbon lamb (S/N SI 10-300 No. 5). The individual results may be consulted in the COOMET.T-K5 Final Report .
This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1100 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1101.961 0.21
Ti / °C
ui / °C
VSL
1102.041
0.11
NMIA
1102.011
0.02
KRISS
1102.001
0.10
NIM
1102.111
0.14
A*STAR
1101.601
0.16
NMIJ
1102.161
0.13
VNIIM
Lab i
Lamp S/N C681
1101.645 0.21
Ti / °C
ui / °C
VSL
1101.925
0.11
NMIA
1101.965
0.02
KRISS
1102.015
0.10
NIM
1102.205
0.14
A*STAR
1101.245
0.16
NMIJ
1102.045
0.13
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1100.102
0.16
NIST
1100.762
0.27
CENAM
1100.502
0.26
LNE-INM
1099.902
0.17
INRIM
1100.602
0.09
PTB
1100.462
0.18
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1100.34°C, uNRC = 0.24 °C
Lamp S/N 644C, TNRC = 1100.40 °C, uNRC = 0.24 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1200 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1201.595 0.34
Ti / °C
ui / °C
VSL
1201.915
0.12
NMIA
1201.925
0.02
KRISS
1201.915
0.12
NIM
1201.925
0.16
A*STAR
1201.415
0.18
NMIJ
1202.105
0.15
VNIIM
Lab i
Lamp S/N C681
0.15 1201.585 0.34
Ti / °C
ui / °C
VSL
1202.045
0.12
NMIA
1202.095
0.02
KRISS
1202.155
0.12
NIM
1202.315
0.16
A*STAR
1201.245
0.18
NMIJ
1202.255
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1200.191
0.20
NIST
1200.851
0.31
CENAM
1200.561
0.31
LNE-INM
1199.951
0.19
INRIM
1200.671
0.10
PTB
1200.621
0.19
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1200.19 °C, uNRC = 0.27 °C
Lamp S/N 644C, TNRC = 1200.33 °C, uNRC = 0.27 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1300 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1301.512 0.47
Ti / °C
ui / °C
VSL
1301.992
0.14
NMIA
1302.032
0.02
KRISS
1301.982
0.14
NIM
1302.032
0.18
A*STAR
1301.402
0.21
NMIJ
1302.252
0.18
VNIIM
Lab i
Lamp S/N C681
1301.628 0.47
Ti / °C
ui / °C
VSL
1302.378
0.14
NMIA
1302.428
0.02
KRISS
1302.518
0.14
NIM
1302.708
0.18
A*STAR
1301.468
0.21
NMIJ
1302.628
0.18
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1300.182
0.23
NIST
1300.952
0.35
CENAM
1300.672
0.37
LNE-INM
1299.882
0.22
INRIM
1300.812
0.12
PTB
1300.752
0.21
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1300.20 °C, uNRC = 0.33 °C
Lamp S/N 644C, TNRC = 1300.34 °C, uNRC = 0.33 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1400 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1401.685 0.60
Ti / °C
ui / °C
VSL
1402.315
0.16
NMIA
1402.395
0.02
KRISS
1402.315
0.16
NIM
1402.375
0.21
A*STAR
1401.645
0.23
NMIJ
1402.655
0.21
VNIIM
Lab i
Lamp S/N C681
1401.675 0.60
Ti / °C
ui / °C
VSL
1402.715
0.16
NMIA
1402.815
0.02
KRISS
1402.915
0.16
NIM
1403.135
0.21
A*STAR
1401.705
0.23
NMIJ
1403.085
0.21
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1400.245
0.28
NIST
1401.165
0.39
CENAM
1400.715
0.44
LNE-INM
1400.005
0.26
INRIM
1400.955
0.14
PTB
1400.795
0.24
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1400.31 °C, uNRC = 0.38 °C
Lamp S/N 644C, TNRC = 1400.31 °C, uNRC = 0.38 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1500 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1502.161 0.73
Ti / °C
ui / °C
VSL
1502.581
0.17
NMIA
1502.671
0.03
KRISS
1502.601
0.19
NIM
1502.671
0.24
A*STAR
1501.821
0.26
NMIJ
1502.991
0.24
VNIIM
Lab i
Lamp S/N C681
1501.775 0.73
Ti / °C
ui / °C
VSL
1503.015
0.17
NMIA
1503.205
0.03
KRISS
1503.215
0.19
NIM
1503.515
0.24
A*STAR
1501.835
0.26
NMIJ
1503.475
0.24
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1500.242
0.32
NIST
1501.312
0.44
CENAM
1500.872
0.50
LNE-INM
1499.922
0.30
INRIM
1501.042
0.16
PTB
1500.882
0.26
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1500.50 °C, uNRC = 0.40 °C
Lamp S/N 644C, TNRC = 1500.59 °C, uNRC = 0.40 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000. This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1600 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1602.854 1602.904 0.86
Ti / °C
ui / °C
VSL
Lab i
Lamp S/N C681
1602.071 0.86
Ti / °C
ui / °C
VSL
1603.051
0.19
NMIA
1603.251
0.03
KRISS
1603.271
0.21
NIM
1603.641
0.27
A*STAR
1601.891
0.30
NMIJ
1603.651
0.27
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1600.304
0.37
NIST
1601.604
0.49
CENAM
1600.884
0.60
LNE-INM
1599.904
0.34
INRIM
1601.084
0.18
PTB
1600.984
0.29
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1600.61 °C, uNRC = 0.45 °C
Lamp S/N 644C, TNRC = 1600.69 °C, uNRC = 0.45 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000.
This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.
CCT-K5, CCT-K5.1, APMP.T-K5 and EUROMET.T-K5
MEASURAND : Temperature
NOMINAL TEMPERATURE : Tnom = 1700 °C
Four Tungsten-strip lamps were used as transfer standards for radiance temperature measurements at specific currents corresponding to each nominal temperature Tnom. To shorten the measurement time significantly the set of transfer standards was split in two sets of two lamps for simultaneous comparisons in two loops. The pilot of each loop measured both lamp sets in order to establish a linkage mechanism described on page 19 of the CCT-K5 Final Report.
Ti : temperature value measured by laboratory i
ui : standard uncertainty of Ti
Lamp S/N C564
1703.310 1703.930 0.99
Ti / °C
ui / °C
VSL
Lab i
Lamp S/N C681
1702.930 0.99
Ti / °C
ui / °C
VSL
1703.010
0.21
NMIA
1703.340
0.04
KRISS
1703.380
0.25
NIM
1703.810
0.31
A*STAR
1701.690
0.34
NMIJ
1703.770
0.31
VNIIM
Lab i
Lamp S/N C860
Ti / °C
ui / °C
NPL
1700.290
0.41
NIST
1701.530
0.55
CENAM
1700.730
0.65
LNE-INM
1699.710
0.38
INRIM
1700.970
0.21
PTB
1700.870
0.32
Lamp S/N C864
Lab i
Lab i |
This is a bilateral comparison between the PTB and the NRC.
TNRC : temperature value measured at the NRC
uNRC : standard uncertainty of TNRC
Lamp S/N C598, TNRC = 1700.66 °C, uNRC = 0.50 °C
Lamp S/N 644C, TNRC = 1700.72 °C, uNRC = 0.50 °C
Laboratory individual measurements of APMP.T-K5 participants are given in Appendix B of the APMP.T-K5 Final Report both in tabulated and in graphical forms. There were taken between 1997 and 2000.
Key comparison EUROMET.T-K5 This comparison involved eight participants and was carried out from October 1999 to February 2001.
The two transfer standards were Lamp S/N C564 and Lamp S/N C681 already used in CCT-K5.
The individual laboratory measurements and their uncertainties are given in Tables 5 to 11 of the EUROMET.T-K5 Final Report.