CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 10 Hz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 55 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 55 Hz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 1 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 1 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 10 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 20 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 20 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 50 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 50 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 100 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 10 mA, 100 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 10 Hz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 55 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 55 Hz
Di / μA/A
Participating institutes

Enlarged graph

Graph 5A-55Hz

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 1 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 1 kHz
Di / μA/A
Participating institutes

Enlarged graph

Graph 5A_1kHz

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 10 kHz
Di / μA/A
Participating institutes

Enlarged graph

Graph 5A_10kHz

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 20 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 20 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 50 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 50 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 100 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

 5 A, 100 kHz
Di / μA/A
Participating institutes

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -2.6 1.8
NIST 4.4 9.0
NRC -0.1 1.4
INTI -1.4 6.1
PTB 2.1 2.9
BEV 0.1 2.0
JV 4.0 12.6
SP 0.2 3.2
NMC, A*STAR -0.6 7.1
NPL 1.4 11.0
VNIIM 2.4 2.4
INMETRO -0.2 3.9
NIS -5.6 3.8
CMI -0.9 4.2
METAS 0.5 8.4
UME 0.3 4.9
GUM 1.7 4.9
IPQ -10.6 40.0
CEM 1.0 4.4
BIM 0.4 14.1
NSAI NML 1.4 50.0
VSL -0.6 18.3
AS METROSERT -0.6 28.0
NIS -2.7 7.5
LNE 2.9 5.5
TRESCAL -3.6 5.1
INRIM -0.8 3.5
MIRS/SIQ 0.4 8.1
SCL -4.2 17.2
NMIJ -5.2 5.5
KRISS -3.6 5.8
NIM -5.1 5.8
NMISA -10.4 15.3
NIMT -4.2 8.5
NMIM -2.7 10.4
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 55 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.3 0.8
NIST -0.2 6.0
NRC -0.1 0.6
INTI 1.8 6.0
PTB 0.5 2.9
BEV -0.3 2.1
JV 0.3 6.6
SP -0.2 2.1
NMC, A*STAR -1.2 7.0
INMETRO -13.2 27.0
NPL -1.2 11.0
VNIIM 2.8 2.7
CENAM 0.4 22
INMETRO 0.3 3.5
NIS -1.1 2.9
UTE -4.2 12.1
CMI -0.3 4.1
METAS 0.4 8.3
UME -0.1 3.4
GUM 0.3 3.9
IPQ -14.2 18.0
CEM -0.1 3.6
BIM -0.3 5.2
MKEH -4.9 21.0
NSAI NML 3.8 30.0
VSL 0.1 18.2
AS METROSERT -0.2 13.0
NIS 0.2 7.2
LNE 1.7 3.9
TRESCAL -0.2 5.1
INRIM 0.0 2.5
MIRS/SIQ -0.2 4.1
SCL 0.3 16.1
NMIJ -0.4 2.2
KRISS -0.7 4.2
NIM -0.7 4.2
NMISA 2.8 14.1
NIMT -0.7 8.1
NMIM -1.3 7.8
CMS -5.6 20.6
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 1 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.3 0.9
NIST -1.0 4.0
NRC 0.1 0.6
INTI 2.3 3.0
PTB 1.0 1.9
BEV 0.0 2.1
JV -0.4 6.6
SP -0.2 1.5
NMC, A*STAR -1.0 7.0
INMETRO -13.0 27.0
NPL 0.0 11.0
VNIIM 0.2 2.3
CENAM -0.1 22
INMETRO -0.1 3.4
NIS -1.1 5.6
UTE -4.1 12
CMI 0.7 4.0
METAS 0.4 8.3
UME 0.1 3.4
GUM 0.8 3.9
IPQ -12.0 16.0
CEM -0.1 3.6
BIM 0.0 4.9
MKEH -4.9 18.0
NSAI NML 4.0 30.0
VSL -0.6 18.1
AS METROSERT -1.0 12.0
NIS 1.3 7.2
LNE 0.1 2.9
TRESCAL 0.0 5.0
INRIM 0.0 2.5
MIRS/SIQ 0.0 4.0
SCL -0.2 13.1
NMIJ -0.2 1.6
KRISS -0.1 4.3
NIM -0.2 4.3
NMISA -1.0 14.1
NIMT -0.2 8.1
NMIM -0.5 7.7
CMS -2.5 10.7
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.1 0.8
NIST 1.2 3.9
NRC -0.6 1.2
INTI 2.4 3.1
PTB 1.1 1.9
BEV -0.2 2.1
JV 0.0 6.8
SP -0.2 1.9
NMC, A*STAR -0.8 7.0
INMETRO -10.8 36.0
NPL 0.2 13.0
VNIIM 0.2 2.5
CENAM 0.1 22.1
INMETRO -0.5 3.9
NIS -3.1 6.7
UTE -3.4 14.2
CMI 0.6 4.1
METAS 0.2 8.3
UME -0.2 3.4
GUM -3.7 4.6
IPQ -1.4 17.0
CEM -0.6 3.6
BIM 0.2 5.0
MKEH -4.9 23.0
NSAI NML 1.6 47.0
VSL 6.3 19.5
AS METROSERT -17.4 33.0
NIS 1.3 7.2
LNE -0.6 3.3
TRESCAL -0.4 5.0
INRIM 0.0 2.5
MIRS/SIQ -0.4 4.1
SCL 2.8 18.1
NMIJ 0.1 2.2
KRISS 0.8 7.1
NIM 0.2 4.2
NMISA -2.5 16.1
NIMT 0.8 8.1
NMIM -0.2 8.6
CMS -3.3 10.7
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 20 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.2 0.7
NIST 1.2 3.9
NRC -0.6 1.7
INTI 2.3 5.0
PTB 1.1 1.9
BEV 0.0 2.3
JV -0.7 8.4
SP 0.1 2.0
NMC, A*STAR -0.8 7.0
NPL -0.8 14.0
VNIIM 0.1 2.5
CENAM 0.7 22.1
INMETRO -0.5 4
CMI 0.8 4.5
METAS -0.2 8.3
UME -0.6 3.4
GUM 3.0 4.5
IPQ 28.1 18.0
CEM -1.1 3.8
BIM -1.6 5.0
MKEH -1.0 19.0
NSAI NML -0.9 103.0
VSL 8.9 30.8
LNE 0.0 3.1
TRESCAL 0.1 7.0
INRIM -0.3 2.9
MIRS/SIQ -0.9 4.1
NMIJ -0.1 2.5
NIM 1.2 5.2
NMISA -5.4 16.1
NIMT 2.4 8.1
CMS -3.2 14.6
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 50 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.1 1.2
NIST 3.3 7.0
NRC -0.8 1.4
INTI 1.5 10.0
PTB 0.9 1.8
BEV 0.2 2.5
JV -1.7 10.4
SP 0.1 2.4
NMC, A*STAR 0.3 7.0
NPL 1.3 15.0
VNIIM 0.0 2.5
CENAM 2.9 22.1
INMETRO -1.1 4
CMI 1.7 5.3
METAS 0.6 8.4
UME 0.6 4.1
CEM -0.1 3.9
BIM -3.4 7.3
NSAI NML -5.0 200.0
VSL 14.3 48.2
LNE 1.3 3.3
TRESCAL 4.0 10.0
INRIM 0.1 3.2
MIRS/SIQ 0.0 4.1
NMIJ -0.1 3.4
NIM 3.0 6.3
NMISA -8.3 17.1
NIMT 2.7 8.2
CMS 0.7 18.5
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 100 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA 0.0 1.6
NIST 6.8 10.0
NRC -0.8 1.3
INTI 0.8 20.0
PTB 0.8 1.8
BEV 0.4 3.3
JV -3.2 12.5
SP 0.2 3.3
NMC, A*STAR 1.8 12.0
NPL 2.8 22.0
VNIIM 0.1 2.4
CENAM -1.3 24.1
INMETRO -2.2 4
CMI 5.4 5.4
METAS 0.4 9.5
UME 0.9 6.2
CEM -0.1 4.6
BIM -5.1 13.1
NSAI NML -18.1 410.0
VSL 32.2 98.4
LNE 1.3 3.5
TRESCAL 7.9 20.1
INRIM -0.4 3.7
MIRS/SIQ 0.9 5.2
NMIJ -0.6 5.7
NIM 6.1 8.4
NMISA -13.3 26.1
NIMT -2.9 13.2
CMS 4.9 24.6
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.6 4.2
NIST 3.1 18.9
NRC 0.0 14.9
INTI 1.3 7.9
PTB 0.1 5.8
BEV 0.6 1.3
JV 5.1 44.6
SP -0.4 4.7
NMC, A*STAR -1.9 25.0
NPL -25.9 56.0
VNIIM -1.9 3.7
INMETRO 2.8 14.1
CMI 1.0 25.1
PTB 0.0 5.7
METAS 0.5 12.5
JV 0.0 10.9
UME -2.0 12.1
GUM -3.5 12.5
IPQ -5.0 61.0
CEM 0.9 17.1
BIM 0.0 36.0
NSAI NML 0.0 185.0
VSL -1.7 23.8
NPL -27.0 55.0
METROSERT 5.0 36.0
SP 0.3 4.5
BEV 0.0 1.0
LNE -12.0 19.1
TRESCAL -3.0 18.1
INRIM 2.7 6.7
MIRS/SIC -3.0 14.1
SCL -2.1 27.8
NMIJ -2.4 14.1
KRISS 0.5 14.7
NIM -0.8 16.5
NMISA -31.8 65.4
NIMT -1.1 23.0
NMIM -1.8 16.5
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 55 Hz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA 0.5 3.9
NIST 4.3 17.9
NRC 0.1 13.9
INTI -0.9 6.9
PTB 0.3 3.8
BEV 0.3 1.5
JV 2.1 13.3
SP -0.4 4.0
NMC, A*STAR -0.7 25.0
INMETRO -0.7 91.0
NPL 8.3 25.0
VNIIM -2.1 3.8
CENAM -1.2 42.7
INMETRO 0.3 12
NIS 0.4 18.6
UTE 1.8 25.3
CMI 0.0 17.1
PTB 0.0 4.7
METAS 0.0 10.0
JV 0.0 6.8
UME 0.0 8.2
GUM -2.4 12.4
IPQ -3.0 31.0
CEM -2.0 10.0
BIM -2.0 26.1
MKEH -5.5 28.0
NSAI NML 4.0 73.0
VSL 0.6 23.8
NPL 1.0 21.9
METROSERT -9.0 19.1
SP 0.0 3.9
BEV 0.0 1.1
NIS 1.1 28.4
LNE 1.0 18.1
TRESCAL 0.0 18.1
INRIM -0.9 5.8
MIRS/SIC 0.0 13.1
NMC -2.6 12.5
NMIA 0.6 2.9
SCL 3.7 24.3
NMIJ -1.1 5.1
KRISS -0.1 13.5
NIM 4.3 14.4
NMISA -2.6 32.2
NIMT 0.7 22.3
NMIM -2.2 10.1
CMS/ITRI 0.1 47.8
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 1 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA 0.1 3.9
NIST 2.5 16.9
NRC -1.1 13.9
INTI 2.9 4.8
PTB -0.5 3.8
BEV -0.5 1.5
JV -1.0 10.7
SP -1.4 3.7
NMC, A*STAR -2.5 25.0
INMETRO 23.5 91.0
NPL -2.5 24.0
VNIIM 1.5 3.1
CENAM -4.2 36.6
INMETRO -4.0 8.9
NIS 15.8 18.5
UTE -2.2 24.9
CMI -2.0 17.1
PTB 0.0 4.7
METAS 2.0 9.3
JV 0.0 6.8
UME 0.0 8.2
GUM -4.5 12.6
IPQ -26.0 32.0
CEM -0.5 10.0
BIM 6.0 26.1
MKEH -9.1 23.1
NSAI NML 3.0 73.0
VSL 1.0 23.8
NPL -6.0 20.9
METROSERT -9.0 19.1
SP 0.3 3.4
BEV 0.0 1.2
NIS 5.4 28.2
LNE -4.0 14.1
TRESCAL 0.0 18.1
INRIM -0.6 4.6
MIRS/SIC 1.0 13.1
NMC -0.2 13.4
NMIA 0.0 5.5
SCL 11.1 23.7
NMIJ -0.5 6.5
KRISS 0.2 14.2
NIM -0.2 15.1
NMISA -13.7 28.6
NIMT 0.1 22.7
NMIM -1.9 26.6
CMS/ITRI 0.4 45.2
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -1.2 3.8
NIST 6.6 16.9
NRC -2.5 14.9
INTI -1.5 6.8
PTB -3.4 4.7
BEV -2.6 8.8
JV -3.0 11.2
SP -0.8 3.9
NMC, A*STAR -2.4 24.9
INMETRO 118.6 96.0
NPL -8.4 22.1
VNIIM 3.4 2.6
CENAM 17.8 41.0
INMETRO 1.0 11.4
NIS 288.8 22.0
UTE 14.8 31.3
CMI -2.9 17.2
PTB -0.9 5.3
METAS 1.1 10.8
JV 1.1 6.4
UME -1.9 8.5
GUM -11.2 12.9
IPQ -199.9 35.1
CEM -0.3 11.4
BIM 7.1 24.2
MKEH -11.4 24.2
NSAI NML 2.1 120.0
VSL -1.2 28.3
NPL -5.9 18.8
METROSERT -2.9 55.1
SP 0.7 3.1
BEV -1.9 8.5
NIS 21.8 28.3
LNE 1.1 15.3
TRESCAL 5.1 22.2
INRIM 0.7 6.5
MIRS/SIC -0.9 13.3
NMC -2.3 13.4
NMIA -1.2 5.9
SCL 21.8 42.1
NMIJ -1.8 7.2
KRISS -2.3 15.3
NIM -7.2 16.2
NMISA -2.3 26.7
NIMT 3.8 22.9
CMS/ITRI -3.5 45.1
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 20 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -0.7 3.7
NIST 0.6 20.8
NRC 0.4 14.8
INTI 0.9 7.6
PTB -2.4 6.5
BEV -0.4 8.6
JV -1.8 18.6
SP 1.9 4.4
NMC, A*STAR -0.2 24.9
NPL -1.4 53.1
INMETRO 0.9 13.9
CMI -4.1 19.3
PTB -1.1 6.2
METAS 0.0 12.7
JV 1.9 6.2
UME -2.1 9.6
IPQ -220.1 31.2
CEM 1.4 13.4
BIM 7.9 24.2
NSAI NML 2.9 230.0
VSL -4.3 50.6
NPL -8.1 27.8
SP 0.6 3.8
BEV -2.1 8.4
LNE 14.9 15.3
TRESCAL 8.9 27.2
INRIM 0.6 7.8
MIRS/SIC -2.1 13.4
NMC -2.6 13.3
NMIA -0.6 5.9
NMIJ -5.0 8.0
NIM -12.9 19.1
NMISA -6.4 65.3
NIMT 6.6 22.9
CMS/ITRI -7.7 57.6
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 50 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -3.0 6.9
NIST 1.5 26.7
NRC -1.1 19.6
INTI 3.4 12.4
PTB -1.5 8.1
BEV 1.6 8.7
JV -2.0 25.5
SP 3.5 9.2
NMC, A*STAR -2.2 24.7
NPL -21.5 84.1
INMETRO -0.1 18.9
CMI -8.7 22.5
PTB -2.7 9.9
METAS -3.6 21.7
JV 2.3 6.4
UME -5.7 12.9
CEM 0.2 18.6
BIM 6.3 28.4
NPL -20.7 41.7
SP -0.7 8.8
BEV 0.3 8.8
LNE 19.3 16.7
TRESCAL 13.3 45.2
INRIM 0.7 11.3
MIRS/SIC -8.7 16.7
NMC -8.2 14.1
NMIA -2.5 8.9
NMIJ -8.6 13.2
NIM -22.0 26.8
NMISA -28.9 105.4
NIMT 1.6 35.3
CMS/ITRI -20.9 73.2
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 100 kHz

 

Degrees of equivalence represented by Di = (xI - xR) and its expanded uncertainty (k = 2) Ui , both expressed in µA/A.

LABi Di Uneg,i Upos,i
μA/A
μA/A
μA/A
NMIA -4.9 10.6
NIST -25.7 32.5
NRC -11.3 30.5
INTI 0.1 21.3
PTB -0.7 9.4
BEV 6.2 11.3
JV -3.5 38.8
SP 9.3 13.9
NMC, A*STAR -4.9 43.6
NPL -14.7 166.1
INMETRO 9.7 29.9
CMI -22.0 43.5
PTB -2.0 15.6
METAS -3.7 32.1
JV 3.0 8.7
UME -17.0 22.0
CEM -2.0 24.9
BIM -17.0 40.6
NPL 4.0 93.8
SP -3.0 13.4
BEV -1.0 11.1
LNE 25.0 18.3
TRESCAL 18.0 70.3
INRIM -0.7 17.4
MIRS/SIC -11.0 26.9
NMC -16.7 24.6
NMIA -4.0 14.9
NMIJ -14.3 20.0
NIM -38.1 33.8
NMISA -28.6 204.6
NIMT -24.0 48.6
CMS/ITRI -49.9 97.9
Participating institutes
CCEM-K12
SIM.EM-K12
EURAMET.EM-K12
APMP.EM-K12
Comparison
Comparison close
CC comparison
Linked comparison
CCEM-K12
Metrology area, Sub-field Electricity and Magnetism, AC Voltage, Current, Power, and AC/DC Transfer
Description Comparison of AC-DC current transfer standards
Time of measurements 2005 - 2007
Status Approved for equivalence
Final Reports of the comparisons
Measurand AC-DC current transfer difference
Parameters Current: 10 mA and 5 A
Frequency: 10 Hz, 55 Hz, 1 kHz, 10 kHz, 20 kHz, 50 kHz and 100 kHz
Transfer device Single-junction thermal converters
Comparison type Key Comparison
Consultative Committee CCEM (Consultative Committee for Electricity and Magnetism)
Conducted by CCEM (Consultative Committee for Electricity and Magnetism)
Comments Measurements at frequencies 10 Hz, 55 Hz, 1kHz, and 10 kHz are mandatory.
Results published on 05 September 2012
SIM.EM-K12 and EURAMET.EM-K12 results are linked to those of CCEM-K12
AC-DC current transfer standards
Pilot institute NMIA
National Measurement Institute, Australia
Australia
Contact person I. Budovsky

+61 2 8467 3541
First Name Last Name
wwww@ww.www +356719836 Institute 1 Institute 1 Khmelnitskiy
Pilot laboratory
NMIA

National Measurement Institute, Australia, Australia, APMP

BEV

Bundesamt für Eich- und Vermessungswesen, Austria, EURAMET

INMETRO

Instituto Nacional de Metrologia, Qualidade e Tecnologia, Brazil, SIM

INTI

Instituto Nacional de Tecnologia Industrial, Argentina, SIM

JV

Justervesenet, Norway, EURAMET

NIST

National Institute of Standards and Technology, United States, SIM

NMC, A*STAR

National Metrology Centre, Agency for Science, Technology and Research, Singapore, APMP

NPL

National Physical Laboratory, United Kingdom, EURAMET

NRC

National Research Council, Canada, SIM

PTB

Physikalisch-Technische Bundesanstalt, Germany, EURAMET

SP

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

VNIIM

D.I. Mendeleyev Institute for Metrology, Rosstandart, Russian Federation, COOMET

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 Hz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = 2.6 µA/A     2uR = 0.9 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 55 Hz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -0.8 µA/A     2uR = 0.6 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 1 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -1.0 µA/A     2uR = 0.5 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -1.2 µA/A     2uR = 0.6 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 20 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -1.2 µA/A     2uR = 0.7 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 50 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -1.3 µA/A     2uR = 0.8 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 100 kHz

 

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 10 mA, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, PTB, BEV, SP, and VNIIM.

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -1.8 µA/A     2uR = 0.9 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 Hz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -0.1 µA/A     2uR = 1.5 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 55 Hz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -0.3 µA/A     2uR = 1.4 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 1 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = 0.5 µA/A     2uR = 1.3 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -0.6 µA/A     2uR = 1.8 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 20 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -8.6 µA/A     2uR = 2.6 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 50 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -34.5 µA/A     2uR = 4.0 µA/A

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 100 kHz

 

CCEM-K12

The key comparison reference value, xR, is computed as the weighted average of the results of those participants who have an independent realisation of primary standards for current AC-DC difference and a low reported uncertainty (see Section 6 of the CCEM-K12 Final Report).

At 5 A, the key comparison reference values are based on the measurements carried out by NMIA, NIST, NRC, INTI, PTB, BEV, JV(except at 10 Hz), SP, NMC and VNIIM(from 10 Hz to 10 kHz).

The combined standard uncertainty, uR, of xR is the standard uncertainty of the weighted average (see equation 2 on page 11 of the Final Report).

 

        xR = -65.3 µA/A     2uR = 5.7 µA/A 

 

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

Di = (xi - xR) and its expanded uncertainty (k = 2) Ui obtained from equations 4, 5 and 6 on page 11 of the CCEM-K12 Final Report.

 

Linking SIM.EM-K12 to CCEM-K12

NIST, NRC and INTI provide the link between the key comparison SIM.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 12 of the SIM.EM-K12 Final Report.

 

Linking EURAMET.EM-K12 to CCEM-K12

BEV, JV, NPL, PTB, and SP provide the link between the key comparison EURAMET.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the EURAMET.EM-K12 Final Report.

 

Linking APMP.EM-K12 to CCEM-K12

NMC and NMIA provide the link between the key comparison APMP.EM-K12 and CCEM-K12, having participated in both comparisons. The linking process is described in Section 7 of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 Hz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi Ui Measurement dates
  / (µA/A) / (µA/A)
NMIA -0.1 2.0 Oct 2004 to Feb 2005
NIST 7.0 9.0 Mar 2005 to May 2005
NRC 2.5 1.7 May 2005 to Jun 2005
INTI 1.2 6.0 Jul 2005 to Aug 2005
PTB 4.7 3.0 Sep 2005 to Oct 2005
BEV 2.7 2.2 Oct 2005
JV 6.6 12.6 Nov 2005 to Dec 2005
SP 2.8 3.3 Jan 2006 to Feb 2006
NMIA 0.1 2.0 Mar 2006 to May 2006
NMC, A*STAR 2.0 7.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL 4.0 11.0 Sep 2006 to Jan 2007
VNIIM 5.0 2.6 Mar 2007 to Apr 2007
NMIA mean 0.0 2.0  

- Did not measure

 

SIM.EM-K12

 The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 55 Hz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.1 1.0 Oct 2004 to Feb 2005
NIST -1.0 6.0 Mar 2005 to May 2005
NRC -0.9 0.8 May 2005 to Jun 2005
INTI 1.0 6.0 Jul 2005 to Aug 2005
PTB -0.3 3.0 Sep 2005 to Oct 2005
BEV -1.1 2.2 Oct 2005
JV -0.5 6.6 Nov 2005 to Dec 2005
SP -1.0 2.2 Jan 2006 to Feb 2006
NMIA -1.1 1.0 Mar 2006 to May 2006
NMC, A*STAR -2.0 7.0 Jun 2006 to Jul 2006
INMETRO -14.0 27.0 Aug 2006 to Sep 2006
NPL -2.0 11.0 Sep 2006 to Jan 2007
VNIIM 2.0 2.8 Mar 2007 to Apr 2007
NMIA mean -1.1 1.0  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 1 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.2 1.0 Oct 2004 to Feb 2005
NIST -2.0 4.0 Mar 2005 to May 2005
NRC -0.9 0.8 May 2005 to Jun 2005
INTI 1.3 3.0 Jul 2005 to Aug 2005
PTB 0.0 2.0 Sep 2005 to Oct 2005
BEV -1.0 2.2 Oct 2005
JV -1.3 6.6 Nov 2005 to Dec 2005
SP -1.2 1.6 Jan 2006 to Feb 2006
NMIA -1.3 1.0 Mar 2006 to May 2006
NMC, A*STAR -2.0 7.0 Jun 2006 to Jul 2006
INMETRO -14.0 27.0 Aug 2006 to Sep 2006
NPL -1.0 11.0 Sep 2006 to Jan 2007
VNIIM -0.8 2.4 Mar 2007 to Apr 2007
NMIA mean -1.3 1.0  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 10 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.2 1.0 Oct 2004 to Feb 2005
NIST 0.0 4.0 Mar 2005 to May 2005
NRC -1.8 1.4 May 2005 to Jun 2005
INTI 1.2 3.0 Jul 2005 to Aug 2005
PTB -0.1 2.0 Sep 2005 to Oct 2005
BEV -1.4 2.2 Oct 2005
JV -1.3 6.8 Nov 2005 to Dec 2005
SP -1.4 2.0 Jan 2006 to Feb 2006
NMIA -1.4 1.0 Mar 2006 to May 2006
NMC, A*STAR -2.0 7.0 Jun 2006 to Jul 2006
INMETRO -12.0 36.0 Aug 2006 to Sep 2006
NPL -1.0 13.0 Sep 2006 to Jan 2007
VNIIM -1.0 2.6 Mar 2007 to Apr 2007
NMIA mean -1.3 1.0  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 20 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.2 1.0 Oct 2004 to Feb 2005
NIST 0.0 4.0 Mar 2005 to May 2005
NRC -1.8 1.8 May 2005 to Jun 2005
INTI 1.1 5.0 Jul 2005 to Aug 2005
PTB -0.1 2.0 Sep 2005 to Oct 2005
BEV -1.2 2.4 Oct 2005
JV -1.9 8.4 Nov 2005 to Dec 2005
SP -1.1 2.1 Jan 2006 to Feb 2006
NMIA -1.5 1.0 Mar 2006 to May 2006
NMC, A*STAR -2.0 7.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL -2.0 14.0 Sep 2006 to Jan 2007
VNIIM -1.1 2.6 Mar 2007 to Apr 2007
NMIA mean -1.4 1.0  

- Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 50 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.3 1.4 Oct 2004 to Feb 2005
NIST 2.0 7.0 Mar 2005 to May 2005
NRC -2.1 1.6 May 2005 to Jun 2005
INTI 0.2 10.0 Jul 2005 to Aug 2005
PTB -0.4 2.0 Sep 2005 to Oct 2005
BEV -1.1 2.6 Oct 2005
JV -3.0 10.4 Nov 2005 to Dec 2005
SP -1.2 2.5 Jan 2006 to Feb 2006
NMIA -1.6 1.4 Mar 2006 to May 2006
NMC, A*STAR -1.0 7.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL 0.0 15.0 Sep 2006 to Jan 2007
VNIIM -1.3 2.6 Mar 2007 to Apr 2007
NMIA mean -1.5 1.4  

-Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 10 mA

FREQUENCY : 100 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.7 1.8 Oct 2004 to Feb 2005
NIST 5.0 10.0 Mar 2005 to May 2005
NRC -2.6 1.6 May 2005 to Jun 2005
INTI -1.0 20.0 Jul 2005 to Aug 2005
PTB -1.0 2.0 Sep 2005 to Oct 2005
BEV -1.4 3.4 Oct 2005
JV -5.0 12.5 Nov 2005 to Dec 2005
SP -1.6 3.4 Jan 2006 to Feb 2006
NMIA -1.8 1.8 Mar 2006 to May 2006
NMC, A*STAR 0.0 12.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL 1.0 22.0 Sep 2006 to Jan 2007
VNIIM -1.7 2.6 Mar 2007 to Apr 2007
NMIA mean -1.8 1.8  

-Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table V (p. 9) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 3 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 Hz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -0.6 4.5 Oct 2004 to Feb 2005
NIST 3.0 19.0 Mar 2005 to May 2005
NRC -0.1 15.0 May 2005 to Jun 2005
INTI 1.2 8.0 Jul 2005 to Aug 2005
PTB 0.0 6.0 Sep 2005 to Oct 2005
BEV 0.5 2.0 Oct 2005
JV 5.0 44.6 Nov 2005 to Dec 2005
SP -0.5 4.9 Jan 2006 to Feb 2006
NMIA -0.8 4.5 Mar 2006 to May 2006
NMC, A*STAR -2.0 25.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL -26.0 56.0 Sep 2006 to Jan 2007
VNIIM -2.0 4.0 Mar 2007 to Apr 2007
NMIA mean -0.7 4.5  

-Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 55 Hz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA 0.4 4.1 Oct 2004 to Feb 2005
NIST 4.0 18.0 Mar 2005 to May 2005
NRC -0.2 14.0 May 2005 to Jun 2005
INTI -1.2 7.0 Jul 2005 to Aug 2005
PTB 0.0 4.0 Sep 2005 to Oct 2005
BEV 0.0 2.0 Oct 2005
JV 1.8 13.2 Nov 2005 to Dec 2005
SP -0.7 4.2 Jan 2006 to Feb 2006
NMIA 0.0 4.1 Mar 2006 to May 2006
NMC, A*STAR -1.0 25.0 Jun 2006 to Jul 2006
INMETRO -1.0 91.0 Aug 2006 to Sep 2006
NPL 8.0 25.0 Sep 2006 to Jan 2007
VNIIM -2.4 4.0 Mar 2007 to Apr 2007
NMIA mean 0.2 4.1  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 1 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA 0.8 4.1 Oct 2004 to Feb 2005
NIST 3.0 17.0 Mar 2005 to May 2005
NRC -0.6 14.0 May 2005 to Jun 2005
INTI 3.4 5.0 Jul 2005 to Aug 2005
PTB 0.0 4.0 Sep 2005 to Oct 2005
BEV 0.0 2.0 Oct 2005
JV -0.5 10.6 Nov 2005 to Dec 2005
SP -0.9 3.9 Jan 2006 to Feb 2006
NMIA 0.4 4.1 Mar 2006 to May 2006
NMC, A*STAR -2.0 25.0 Jun 2006 to Jul 2006
INMETRO 24.0 91.0 Aug 2006 to Sep 2006
NPL -2.0 24.0 Sep 2006 to Jan 2007
VNIIM 2.0 3.4 Mar 2007 to Apr 2007
NMIA mean 0.6 4.1  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 10 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -1.3 4.2 Oct 2004 to Feb 2005
NIST 6.0 17.0 Mar 2005 to May 2005
NRC -3.1 15.0 May 2005 to Jun 2005
INTI -2.1 7.0 Jul 2005 to Aug 2005
PTB -4.0 5.0 Sep 2005 to Oct 2005
BEV -3.2 9.0 Oct 2005
JV -3.6 11.0 Nov 2005 to Dec 2005
SP -1.4 4.3 Jan 2006 to Feb 2006
NMIA -2.2 4.2 Mar 2006 to May 2006
NMC, A*STAR -3.0 25.0 Jun 2006 to Jul 2006
INMETRO 118.0 96.0 Aug 2006 to Sep 2006
NPL -9.0 22.0 Sep 2006 to Jan 2007
VNIIM 2.8 3.2 Mar 2007 to Apr 2007
NMIA mean -1.8 4.2  

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 20 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -8.3 4.5 Oct 2004 to Feb 2005
NIST -8.0 21.0 Mar 2005 to May 2005
NRC -8.2 15.0 May 2005 to Jun 2005
INTI -7.7 8.0 Jul 2005 to Aug 2005
PTB -11.0 7.0 Sep 2005 to Oct 2005
BEV -9.0 9.0 Oct 2005
JV -10.4 18.4 Nov 2005 to Dec 2005
SP -6.7 5.1 Jan 2006 to Feb 2006
NMIA -10.3 4.5 Mar 2006 to May 2006
NMC, A*STAR -8.8 25.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL -10.0 53.0 Sep 2006 to Jan 2007
VNIIM - - -
NMIA mean -9.3 4.5  

- Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 50 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -37.1 8.0 Oct 2004 to Feb 2005
NIST -33.0 27.0 Mar 2005 to May 2005
NRC -35.6 20.0 May 2005 to Jun 2005
INTI -31.1 13.0 Jul 2005 to Aug 2005
PTB -36.0 9.0 Sep 2005 to Oct 2005
BEV -32.9 9.6 Oct 2005
JV -36.5 25.2 Nov 2005 to Dec 2005
SP -31.0 10.0 Jan 2006 to Feb 2006
NMIA -37.8 8.0 Mar 2006 to May 2006
NMC, A*STAR -36.7 25.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL -56.0 84.0 Sep 2006 to Jan 2007
VNIIM - - -
NMIA mean -37.5 8.0  

- Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.

CCEM-K12, SIM.EM-K12, EURAMET.EM-K12 and APMP.EM-K12

 

MEASURAND : AC-DC current transfer difference

CURRENT : 5 A

FREQUENCY : 100 kHz

 

CCEM-K12

xi   AC-DC difference reported by laboratory iLabi

Ui   expanded uncertainty of xi at 95 % level of confidence

Lab i xi ULab i Measurement dates
  / (µA/A) / (µA/A)
NMIA -70.5 12.0 Oct 2004 to Feb 2005
NIST -91.0 33.0 Mar 2005 to May 2005
NRC -76.6 31.0 May 2005 to Jun 2005
INTI* -65.2 22.0 Jul 2005 to Aug 2005
PTB -66.0 11.0 Sep 2005 to Oct 2005
BEV -59.1 12.6 Oct 2005
JV -68.8 38.4 Nov 2005 to Dec 2005
SP -56.0 15.0 Jan 2006 to Feb 2006
NMIA -69.9 12.0 Mar 2006 to May 2006
NMC, A*STAR -70.1 44.0 Jun 2006 to Jul 2006
INMETRO - - -
NPL -80.0 166.0 Sep 2006 to Jan 2007
VNIIM - - -
NMIA mean -70.2 12.0  

- Did not measure

 

SIM.EM-K12

The measured AC-DC differences at 10 mA are reported in Table VI (p. 13) of the SIM.EM-K12 Final Report.

 

EURAMET.EM-K12

The measured AC-DC differences at 10 mA are reported in Table 4 (p. 12) of the EURAMET.EM-K12 Final Report.

 

APMP.EM-K12

The measured AC-DC differences and expanded measurement uncertainties are reported in Tables 7 and 8, respectively (p. 9), of the APMP.EM-K12 Final Report.