CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants
Green triangle : EUROMET.EM.RF-K8.1.CL participant

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants
Green triangle : EUROMET.EM.RF-K8.1.CL participant

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants
Green triangle : EUROMET.EM.RF-K8.1.CL participant

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Graph of equivalence : Di and expanded uncertainty Ui, both dimensionless
Click on the graph for a closer view

Red diamonds : CCEM.RF-K8.CL participants
Blue squares : EUROMET.EM.RF-K8.CL participants

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

- : no measurements
* : TM3 was not measured
In blue : participants in EUROMET.EM.RF-K8.CL
In green : participant in EUROMET.EM.RF-K8.1.CL

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.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

- : no measurements at this frequency
N/A : not applicable (no measurements at all on the specified device)
In blue : participants in EUROMET.EM.RF-K8.CL

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.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

- : no measurements
* : TM3 was not measured
In blue : participants in EUROMET.EM.RF-K8.CL
In green : participant in EUROMET.EM.RF-K8.1.CL

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.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

N/A : not applicable (no measurements at all on the specified device)
In blue : participants in EUROMET.EM.RF-K8.CL

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.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

- : no measurements
* : TM3 was not measured
In blue : participants in EUROMET.EM.RF-K8.CL
In green : participant in EUROMET.EM.RF-K8.1.CL

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.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

Degrees of equivalence, Di and expanded uncertainty Ui, both dimensionless

- : no measurements at this frequency
N/A : not applicable (no measurements at all on the specified device)
In blue : participants in EUROMET.EM.RF-K8.CL

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
RMO comparison
Linked comparison
EUROMET.EM.RF-K8.CL
Metrology area, Sub-field Electricity and Magnetism, Radio frequencies
Description Power in 50 ohm coaxial lines
Time of measurements 2001 - 2002
Status Approved for equivalence
Measurand Calibration factor in coaxial 7 mm transmission line
Parameters Frequency: 10 MHz to 18 GHz (8 discrete values)
Transfer device Three thermistor mounts identified as TM4, TM5, and TM6
TM4 and TM6 have a male Type-N 50 ohm connector, and TM5 has a GPC7-connector
Comparison type Key Comparison
Consultative Committee CCEM (Consultative Committee for Electricity and Magnetism)
Conducted by EURAMET (European Association of National Metrology Institutes)
RMO Internal Identifier EUROMET Project No 633
Comments

EUROMET.EM.RF-K8.CL and EUROMET.EM.RF-K8.1.CL results are linked to those of CCEM.RF-K8.CL

CCEM.RF-K8.CL results published on 01 June 2005
EUROMET.EM.RF-K8.CL and -K8.1.CL published on 17 March 2007

Pilot institute VSL
VSL
Netherlands
Contact person J.P.M. de Vreede
jdevreede@vsl.nl
+31 (0) 15 269 1621
First Name Last Name
wwww@ww.www +356719836 Institute 1 Institute 1 Khmelnitskiy
INRIM

Istituto Nazionale di Ricerca Metrologica, Italy, EURAMET

METAS

Federal Institute of Metrology, Switzerland, EURAMET

NMi-VSL

Nederlands Meetinstituut - Van Swinden Laboratorium (became VSL in 2009), Netherlands, EURAMET

NPL

National Physical Laboratory, United Kingdom, EURAMET

NRC

National Research Council, Canada, SIM

SMU

Slovensky Metrologicky Ustav, Slovakia, EURAMET

SP

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

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 10 MHz
TRAVELLING STANDARDS : thermistor mounts of type-N 50 ohm connector

  • Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM1 at 10 MHz, xR = 0.9681 and uR = 0.0018
For TM3 at 10 MHz, xR = 0.9640 and uR = 0.0030

For each travelling standard of type-N connector (TM1 and TM3), the degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
DTMn i = the difference between laboratory i result and xR, and UTMn i, its expanded uncertainty taking into account uR (n = 1 or 3).
These are combined to obtain the degree of equivalence of laboratory i for type-N connector, using the following expressions:
Di = avg(DTM1 i, DTM3 i) and
Ui[[avg(UTM1 i, UTM3 i)]2 + [abs(DTM1 - DTM3 i)/2]2]1/2.
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NPL, INRIM, NRC, and NMi-VSL) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 5 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

  • Linking EUROMET.EM.RF-K8.1.CL key comparison to CCEM.RF-K8.CL

The NMi-VSL is the pilot laboratory of the bilateral comparison EUROMET.EM.RF-K8.1.CL by which the results of MIKES participant in EUROMET.EM.RF-K8.1.CL are linked to those obtained in EUROMET.EM.RF-K8.CL (see EUROMET.EM.RF-K8.1.CL Final Report).

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results of MIKES obtained in EUROMET.EM.RF-K8.1.CL.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 10 MHz
TRAVELLING STANDARDS : thermistor mounts with PC7-connector

  •  Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM2 at 10 MHz, xR = 0.9645 and uR = 0.0023

The degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
Di = the difference between laboratory i result and xR, and Ui, its expanded uncertainty taking into account uR
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NMi-VSL and NRC) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 6 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 4 GHz
TRAVELLING STANDARDS : thermistor mounts of type-N 50 ohm connector

  • Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM1 at 4 GHz, xR = 0.9818 and uR = 0.0010
For TM3 at 4 GHz, xR = 0.9790 and uR = 0.0004

For each travelling standard of type-N connector (TM1 and TM3), the degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
DTMn i = the difference between laboratory i result and xR, and UTMn i, its expanded uncertainty taking into account uR (n = 1 or 3).
These are combined to obtain the degree of equivalence of laboratory i for type-N connector, using the following expressions:
Di = avg(DTM1 i, DTM3 i) and
Ui[[avg(UTM1 i, UTM3 i)]2 + [abs(DTM1 iDTM3 i)/2]2]1/2.
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NPL, INRIM, NRC, and NMi-VSL) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 5 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

  • Linking EUROMET.EM.RF-K8.1.CL key comparison to CCEM.RF-K8.CL

The NMi-VSL is the pilot laboratory of the bilateral comparison EUROMET.EM.RF-K8.1.CL by which the results of MIKES participant in EUROMET.EM.RF-K8.1.CL are linked to those obtained in EUROMET.EM.RF-K8.CL (see EUROMET.EM.RF-K8.1.CL Final Report).

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results of MIKES obtained in EUROMET.EM.RF-K8.1.CL.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 4 GHz
TRAVELLING STANDARDS : thermistor mounts with PC7-connector

  • Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM2 at 4 GHz, xR = 0.9829 and uR = 0.0011

The degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
Di = the difference between laboratory i result and xR, and Ui, its expanded uncertainty taking into account uR.
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NMi-VSL and NRC) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 6 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 18 GHz
TRAVELLING STANDARDS : thermistor mounts of type-N 50 ohm connector

  • Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM1 at 18 GHz, xR = 0.9391 and uR = 0.0021
For TM3 at 18 GHz, xR = 0.9307 and uR = 0.0016

For each travelling standard of type-N connector (TM1 and TM3), the degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
DTMn i = the difference between laboratory i result and xR, and UTMn i, its expanded uncertainty taking into account uR (n = 1 or 3).
These are combined to obtain the degree of equivalence of laboratory i for type-N connector, using the following expressions:
Di = avg(DTM1 i, DTM3 i) and
Ui = [[avg(UTM1 i, UTM3 i)]2 + [abs(DTM1 iDTM3 i)/2]2]1/2
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NPL, INRIM, NRC, and NMi-VSL) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 5 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

  • Linking EUROMET.EM.RF-K8.1.CL key comparison to CCEM.RF-K8.CL

The NMi-VSL is the pilot laboratory of the bilateral comparison EUROMET.EM.RF-K8.1.CL by which the results of MIKES participant in EUROMET.EM.RF-K8.1.CL are linked to those obtained in EUROMET.EM.RF-K8.CL (see EUROMET.EM.RF-K8.1.CL Final Report).

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results of MIKES obtained in EUROMET.EM.RF-K8.1.CL.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00
FREQUENCY : 18 GHz
TRAVELLING STANDARDS : thermistor mounts with PC7-connector

  • Key comparison CCEM.RF-K8.CL

For each travelling standard, the key comparison reference value, xR, is obtained as the unweighted average of the results of a number of selected laboratories (see section 7.2 on page 17 of the CCEM.RF-K8.CL Final Report). The standard uncertainty, uR, of the key comparison reference value is the standard deviation of the mean. xR and uR are dimensionless quantities.

For TM2 at 18 GHz, xR = 0.9434 and uR = 0.0017

The degree of equivalence of laboratory i with respect to the reference value is given by a pair of terms, both dimensionless:
Di = the difference between laboratory i result and xR, and Ui, its expanded uncertainty taking into account uR.
The degree of equivalence between two laboratories i and j is given by a pair of terms, both dimensionless:
Dij = (Di - Dj) and Uij, its expanded uncertainty (k = 2), Uij = (Ui2 + Uj2)1/2.
The pair-wise degrees of equivalence are not explicitely calculated.
  • Linking EUROMET.EM.RF-K8.CL key comparison to CCEM.RF-K8.CL

The laboratories that are participants in both comparisons and which have an independent realisation of the quantity power (NMi-VSL and NRC) are used for linking the results obtained in EUROMET.EM.RF-K8.CL to the results obtained in CCEM.RF-K8.CL. The linking process is explained in section 6 of the Linkage Report.

It follows that the table of degrees of equivalence and the graph of equivalence obtained for CCEM.RF-K8.CL are extended with results obtained in EUROMET.EM.RF-K8.CL.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 10 MHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 4 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.

CCEM.RF-K8.CL, EUROMET.EM.RF-K8.CL and
EUROMET.EM.RF-K8.1.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARDS FOR CCEM.RF-K8.CL : TM1 and TM3 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.CL : TM4 and TM6 both having a male type-N 50 ohm connector
TRAVELLING STANDARDS FOR EUROMET.EM.RF-K8.1.CL : DUT1 and DUT2 both having a male type-N 50 ohm connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.

CCEM.RF-K8.CL and EUROMET.EM.RF-K8.CL

MEASURAND : Calibration factor in coaxial 7 mm transmission line
NOMINAL VALUE : 1.00

FREQUENCY : 18 GHz

TRAVELLING STANDARD FOR CCEM.RF-K8.CL : TM2 with a PC7-connector
TRAVELLING STANDARD FOR EUROMET.EM.RF-K8.CL : TM5 with a PC7-connector

The actual calibration factors of the devices under test are not relevant for the quality of the measurement results, which are given here as the difference between the laboratory result and the relevant key comparison reference value.

Please see Equivalence statements.