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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Zinc freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Zinc freezing point
Di / mK
Participating institutes
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Tin freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Tin freezing point
Di / mK
Participating institutes
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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Indium freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Indium freezing point
Di / mK
Participating institutes
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Gallium melting point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Gallium melting point
Di / mK
Participating institutes
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Mercury triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Mercury triple point
Di / mK
Participating institutes
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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Argon triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

Argon triple point
Di / mK
Participating institutes
Comparison
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Results
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Zinc freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
INMETRO -0.69 1.37
INRIM -0.61 0.91
INTI -1.56 3.37
KRISS 0.61 0.99
LNE-LCM/Cnam 1.01 0.96
NIM 0.13 0.74
NIST 0.02 0.61
NMIA -1.07 0.64
NMIJ/AIST 0.19 0.78
NPL -1.78 0.64
NRC 0.30 0.75
PTB 1.69 1.23
VSL 2.53 1.04
TTBS -1.2 11.8
Participating institutes
CCT-K9
SIM.T-K9.3
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Tin freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
INMETRO -0.91 0.84
INRIM 0.09 0.59
INTI -1.10 1.88
KRISS 0.22 0.75
LNE-LCM/Cnam 0.29 0.64
NIM 0.33 0.54
NIST -0.11 0.37
NMIA -0.21 0.46
NMIJ/AIST -0.03 0.53
NPL 0.09 0.50
NRC 0.65 0.47
PTB 0.28 0.79
VSL 0.54 0.56
TTBS -3.0 10.8
Participating institutes
CCT-K9
SIM.T-K9.3

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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Indium freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
INMETRO -0.65 0.61
INRIM -0.02 0.58
INTI 0.45 2.35
KRISS 0.27 0.97
LNE-LCM/Cnam 0.64 0.49
NIM 0.13 0.43
NIST 0.13 0.25
NMIA -0.04 0.39
NMIJ/AIST 0.16 0.36
NPL -0.29 0.29
NRC 0.12 0.29
PTB 0.06 0.75
VSL -0.02 0.40
Participating institutes
CCT-K9
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Gallium melting point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
BIPM 0.11 0.32
INMETRO 0.29 0.34
INRIM 0.04 0.35
INTI 0.15 0.87
KRISS -0.08 0.41
LNE-LCM/Cnam -0.36 0.38
NIM 0.26 0.38
NIST -0.22 0.23
NMIA -0.33 0.35
NMIJ/AIST -0.24 0.30
NPL -0.06 0.26
NRC 0.12 0.27
PTB -0.05 0.30
VSL -0.14 0.36
TTBS -1.0 6.4
Participating institutes
CCT-K9
SIM.T-K9.3
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CCT-K9 and SIM.T-K9.3

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Mercury triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
INMETRO -0.11 0.41
INRIM 0.18 0.30
INTI -0.08 0.66
KRISS -0.19 0.40
LNE-LCM/Cnam 0.76 0.64
NIM 0.24 0.31
NIST -0.32 0.25
NMIA -0.04 0.29
NMIJ/AIST 0.18 0.59
NPL 0.06 0.24
NRC 0.01 0.24
PTB 0.12 0.29
VSL -0.07 0.25
TTBS 1.1 5.9
Participating institutes
CCT-K9
SIM.T-K9.3
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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Argon triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

Degrees of equivalence represented by Di = (TI - TR) and its expanded uncertainty Ui at a 95 % level of confidence, both expressed in mK.

LABi Di Uneg,i Upos,i
mK
mK
mK
INMETRO 0.21 0.79
INRIM 0.22 1.08
INTI 0.95 1.74
KRISS 0.28 1.03
LNE-LCM/Cnam -0.17 0.80
NIM -0.67 0.66
NIST -1.41 0.54
NMIA -0.36 0.99
NMIJ/AIST 0.20 1.30
NPL 0.35 0.66
NRC -0.06 0.65
PTB 0.10 0.73
VSL -0.82 0.63
Participating institutes
CCT-K9
Comparison
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CC comparison
Linked comparison
SIM.T-K9.2
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Metrology area, Sub-field Thermometry, Standard Platinum Resistance Thermometers
Description Realization of the ITS-90 from 234.315 6 K to 933.473 K
Time of measurements 2018 - 2020
Status Approved
Final Reports of the comparisons
Metrologia 2022 59 Tech. Suppl. 03001
Measurand Fixed points of Mercury (234. 315 6 K), Gallium (302,914 6 K), Tin (505.078 K) and Aluminium (933.473 K)
Transfer device Standard platinum resistance thermometers
Comparison type Key Comparison
Consultative Committee CCT (Consultative Committee for Thermometry)
Conducted by SIM (Inter-American Metrology System)
Comments
 
Pilot institute CEM
Centro Español de Metrologia
Spain
Contact person Dolores DEL CAMPO

+34 918 074 714
First Name Last Name
wwww@ww.www +356719836 Institute 1 Institute 1 Khmelnitskiy
Pilot laboratory
CEM

Centro Español de Metrologia, Spain, EURAMET

INM (CO)

Instituto Nacional de Metrología de Colombia, Colombia, SIM

Comparison
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Results
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CCT-K9 and SIM.T-K9.3

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Zinc freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

CCT-K9

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = -0.20 mK     uR = 0.11 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

Linking SIM.T-K9.3 to CCT-K9

The INMETRO provides the link between the key comparison SIM.T-K9.3 to CCT-K9, having participated in both comparisons. The linking process is described in Section 7 of the the SIM.T-K9.3 Final Report.

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CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Tin freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = 0.06 mK     uR = 0.08 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

Linking SIM.T-K9.3 to CCT-K9

The INMETRO provides the link between the key comparison SIM.T-K9.3 to CCT-K9, having participated in both comparisons. The linking process is described in Section 7 of the the SIM.T-K9.3 Final Report.

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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Indium freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = -0.08 mK     uR = 0.05 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

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CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Gallium melting point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = 0.23 mK     uR = 0.03 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

Linking SIM.T-K9.3 to CCT-K9

The INMETRO provides the link between the key comparison SIM.T-K9.3 to CCT-K9, having participated in both comparisons. The linking process is described in Section 7 of the the SIM.T-K9.3 Final Report.

print out

CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Mercury triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = 0.28 mK     uR = 0.04 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

Linking SIM.T-K9.3 to CCT-K9

The INMETRO provides the link between the key comparison SIM.T-K9.3 to CCT-K9, having participated in both comparisons. The linking process is described in Section 7 of the the SIM.T-K9.3 Final Report.

print out

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Argon triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Key comparison reference value:

Resistance ratios are used with calibration equations for each thermometer to obtain temperature Ti.
The key comparison reference temperature, TR, is calculated from the mean of the average temperatures from the participants' results, excluded SRPT measurements that fail the cutoff criteria described in section 3.5 of the Final Report, and its associated  standard uncertainty uR is  computed as explain in section 2.4 of the Final Report.

 

        TR = 0.80 mK     uR = 0.08 mK

 

The degree of equivalence of laboratory i relative to the key comparison reference value TR is given by a pair of terms, both expressed in mK:

 

Di = (Ti - TR) and its expanded uncertainty Ui at a 95 % level of confidence is computed as described in section 2.3 of the Final Report.

 

Comparison
Comparison close
Results
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CCT-K9 and SIM.T-K9.3

 

CCT-K9

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Zinc freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

 

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.

 

SIM.T-K9.3

The measurement results are listed in Table 3 and 4 of the SIM.T-K9.3 Final Report.

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CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Tin freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.

 

SIM.T-K9.3

The measurement results are listed in Table 3 and 4 of the SIM.T-K9.3 Final Report.

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CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Indium freezing point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.

print out

CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Gallium melting point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.

 

SIM.T-K9.3

The measurement results are listed in Table 3 and 4 of the SIM.T-K9.3 Final Report.

print out

CCT-K9 and SIM.T-K9.3

 

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Mercury triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.

 

SIM.T-K9.3

The measurement results are listed in Table 3 and 4 of the SIM.T-K9.3 Final Report.

print out

CCT-K9

 

MEASURAND  Resistance Ratio, W, at nominal temperature

NOMINAL TEMPERATURE  Argon triple point, a defined fixed point on the International Temperature Scale of 1990 (ITS-90)

 

Wi   dimensionless resistance ratio measurement results of thermometer from laboratory i

ui   combined standard uncertainty of measurement made using thermometer from laboratory i are expressed in mK

The laboratory measurement results are listed in Appendix B of the CCT-K9 Final Report.