(A2LA Cert. No. 1400.03) 05/11/2018 Page 1 of 62 SCOPE OF ACCREDITATION TO ISO/IEC 17025:2005 JAPAN QUALITY ASSURANCE ORGANIZATION Kansai Testing Center 8-19, Mizuhai 3-Chome, Higashiosaka-shi Osaka 578-0921, Japan Masahide Namba Phone: +81 729 66 7209 CALIBRATION Valid To: March 31, 2020 Certificate Number: 1400.03 In recognition of the successful completion of the A2LA evaluation process, accreditation is granted to this laboratory at the location listed above as well as the satellite laboratory location listed below, to perform the following calibrations 1 : I. Chemical Quantities Parameter/Equipment Range CMC 2 () Comments pH Indicator – Instrumental Error Linearity Repeatability (0 to 14) pH units (0 to 14) pH units (0 to 14) pH units 0.0050 pH units 0.0050 pH units 0.0040 pH units DC voltage pH Detector – Instrumental Error Linearity Repeatability 4 pH units, 9 pH units 4 pH units, 7 pH units, 9 pH units 4 pH units 7 pH units 9 pH units 0.40 mV/pH 1.0 mV 0.90 mV 0.80 mV 1.9 mV Standard solutions pH Meters – Three-Point Calibration Instrumental Error 4 pH units 7 pH units 9 pH units 0.010 pH units 0.011 pH units 0.030 pH units Standard solutions
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(A2LA Cert. No. 1400.03) 05/11/2018 Page 1 of 62
SCOPE OF ACCREDITATION TO ISO/IEC 17025:2005
JAPAN QUALITY ASSURANCE ORGANIZATION Kansai Testing Center
8-19, Mizuhai 3-Chome, Higashiosaka-shi Osaka 578-0921, Japan
Masahide Namba Phone: +81 729 66 7209
CALIBRATION
Valid To: March 31, 2020 Certificate Number: 1400.03 In recognition of the successful completion of the A2LA evaluation process, accreditation is granted to this laboratory at the location listed above as well as the satellite laboratory location listed below, to perform the following calibrations1: I. Chemical Quantities
Parameter/Equipment
Range CMC2 ()
Comments
pH Indicator –
Instrumental Error Linearity Repeatability
(0 to 14) pH units (0 to 14) pH units (0 to 14) pH units
0.0050 pH units 0.0050 pH units 0.0040 pH units
DC voltage
pH Detector –
Instrumental Error Linearity
Repeatability
4 pH units, 9 pH units 4 pH units, 7 pH units, 9 pH units 4 pH units 7 pH units 9 pH units
Calibration of voltmeters using DC standard with Kelvin-Varley divider and calibrator Voltage divider, DMM and AC/DC high voltage generator Electrostatic meters
(A2LA Cert. No. 1400.03) 05/11/2018 Page 11 of 62
Parameter/Equipment
Range CMC2, 5, 7 ()
Comments
DC Voltage – Generate3
(1 to 10) mV (10 to 100) mV (0.1 to 1) V (1 to 10) V 10 V (10 to 100) V (100 to 1000) V (1 to 5) kV (5 to 50) kV
0.061 % + 3.7 V 0.013 % + 3.7 V 62 V/V + 6.1 V 62 V/V + 61 V 62 V/V + 61 V 68 V/V + 0.61 mV 68 V/V + 1.9 mV 0.050 % 0.070 %
Fluke 5500A,5520A, and 5522A Resistance voltage divider, DMM and AC/DC high voltage generator
DC Voltage – Measure
(0 to 1) mV (1 to 10) mV (10 to 100) mV (0.1 to 1) V (1 to 10) V 10 V (10 to 100) V (100 to 1000) V (1 to 5) kV (5 to 50) kV
Calibration of voltage generators using DC standard with Kelvin-Varley divider and calibrator DMM with resistance voltage divider
DC Voltage – Measure3
(1 to 10) mV (10 to 100) mV (0.1 to 1) V (1 to 10) V 10 V (10 to 100) V (100 to 1000) V (1 to 50) kV
0.047 % + 0.12 V 55 V/V + 0.12 V 18 V/V + 0.47 V 16 V/V + 2.4 V 16 V/V + 2.4 V 19 V/V + 47 V 19V/V + 470 V 0.10 %
Multimeter Resistance voltage divider RD5kV, RD50kV and multimeter
(A2LA Cert. No. 1400.03) 05/11/2018 Page 12 of 62
Parameter/Equipment
Range CMC2, 5, 7 ()
Comments
DC Current – Generate
Simulated Current
(1 to 10) nA (10 to 100) nA 100 nA to 1 A (1 to 10) A (10 to 100) A 0.1 mA to 2 A (2 to 10) A (10 to 20) A (20 to 50) A (50 to 200) A (200 to 300) A (300 to 500) A (500 to 1000) A (30 to 100) A (100 to 500) A (500 to 950) A (950 to 2500) A
Calibration of current measuring devices using: Calibrator and standard resistor DMM, resistance reference standards and secondary standards DMM and shunt resistors Calibrator with current coil
DC Current – Generate3
Simulated Current
(0.1 to 3) mA (3 to 30) mA (30 to 300) mA (0.3 to 2) A (2 to 10) A (2 to 20) A (20 to 50) A (50 to 200) A (200 to 300) A (300 to 500) A (500 to 1000) A (30 to 100) A (100 to 500) A (500 to 950) A (950 to 2000) A (2000 to 2500) A
0.022 % + 0.07 A
0.018 % + 0.3 A 0.019 % + 4 A
0.039 % + 54 A 0.075 % + 400 A 0.016 % + 0.003 mA 0.016 % + 0.012 mA 0.018 % + 0.058 mA 0.046 % + 0.35 mA 0.050 % + 0.58 mA 0.11 % + 0.87 mA 0.39 % + 110 mA 0.38 % + 110 mA 0.41 % + 120 mA 0.38 % + 110 mA 0.58 % + 280 mA
Calibration of current measuring devices using: Fluke 5500A 5520A, and 5522A DMM and shunt resistors Calibrator with current coil
(A2LA Cert. No. 1400.03) 05/11/2018 Page 13 of 62
Parameter/Equipment
Range CMC2, 5, 7 ()
Comments
DC Current – Measure
(1 to 10) nA (10 to 100) nA (0.1 to 1) A (1 to 10) A (10 to 100) A 100 A to 2 A (2 to 10) A (10 to 20) A (20 to 50) A (50 to 200) A (200 to 300) A (300 to 500) A (500 to 1000) A
Calibration of current generators using: Electrometer DMM, resistance reference standards and secondary standards DMM and shunt resistors
DC Current – Measure3
(10 to 100) A (0.1 to 1) mA (1 to 10) mA (10 to 100) mA (0.1 to 1) A (1 to 2) A (2 to 20) A (20 to 50) A (50 to 200) A (200 to 300) A (300 to 500) A (500 to 1000) A
0.017 % + 0.012 nA 50 A/A + 0.047 nA 50 A/A + 0.47 nA 40 A/A + 4.7 nA 0.017 % + 1.2 A 0.016 % + 1.2 A 0.020 % + 24 A 0.016 % + 0.012 mA 0.018 % + 0.058 mA 0.046 % + 0.35 mA 0.050 % + 0.58 mA 0.11 % + 0.87 mA
Calibration of current generators using: Multimeter with standard resistors and shunt resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 14 of 62
Parameter/Equipment
Range CMC2, 5 ()
Comments
DC Resistance – Generate3
Fixed Values Ranges
1 m 0.01 0.1 1 10 100 1 k 10 k 100 k 1 M (1 to 10) m (10 to 100) m (0.1 to 1) (1 to 10) (10 to 100) (0.1 to 1) k (1 to 10) k (10 to 100) k (0.1 to 1) M (1 to 100) M (0.1 to 1) G (1 to 10) G (10 to 100) G
Calibration of resistance meters using: Standard resistors using with multimeter and generator Decade resistors Decade resistors with Megohm bridge
(A2LA Cert. No. 1400.03) 05/11/2018 Page 15 of 62
Parameter/Equipment
Range CMC2, 5 ()
Comments
DC Resistance – Measure
Fixed Values
Ranges
1 m 0.01 0.1 1 10 100 1 k 10 k 100 k 1 M (0.01 to 0.05) m (0.05 to 0.1) m (0.1 to 1) m (1 to 10) m (10 to 100) m (0.1 to 1) (1 to 10) (10 to 100) (0.1 to 1) k (1 to 10) k (10 to 100) k (0.1 to 1) M (1 to 100) M (0.1 to 1) G (1 to 10) G (10 to 100) G
Calibration of resistors using: Multimeter with standard resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 17 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
AC Voltage – Generate
(300 to 700) mV 700 mV to 2 V 300 mV to 1 V (2 to 200) V (1 to 10) V (10 to 20) V (10 to 100) V (100 to 600) V (0.1 to 1) kV (1 to 10) mV (10 to 100) mV (0.1 to 1) V
(1 to 10) V (10 to 100) V (0.1 to 1) kV (1 to 10) mV (10 to 100) mV (100 to 300) mV
(0.3 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV
(1 to 10) mV (10 to 100) mV (0.1 to 1) V
(10 to 50) Hz (10 to 50) Hz (10 to 30) kHz (30 to 100) kHz 100 kHz to 1 MHz (10 to 50) Hz (10 to 30) kHz (30 to 100) kHz 100 kHz to 1 MHz 100 kHz to 1 MHz (10 to 30) kHz (30 to 100) kHz (30 to 100) kHz (10 to 30) kHz 50 Hz to 1 kHz (except 50, 60, 400 Hz) 50 Hz to 1 kHz (except 50, 60, 400 Hz) (1 to 10) kHz (1 to 10) kHz (50, 60, 400) Hz
Calibration of AC voltmeters using: Fluke 792A, DT 72A
(A2LA Cert. No. 1400.03) 05/11/2018 Page 18 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
AC Voltage – Generate (cont)
(1 to 10) V (10 to 100) V (0.1 to 1) kV
(1 to 30) kV
(50, 60, 400) Hz (50, 60) Hz
50 V/V 55 V/V 55 V/V 0.17 % + 3.5 V
Calibration of AC voltmeters using: Fluke 792A, DT 72A Multimeter, voltage divider and AC/DC high voltage generator
AC Voltage – Generate3
(10 to 100) mV (0.1 to 1) V (1 to 10) V (10 o 100) V (0.1 to 1) kV (10 to 100) mV (100 to 300) mV (0.3 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV (1 to 5) kV
50 Hz to 1 kHz 50 Hz to 1 kHz (1 to 10) kHz (1 to 10) kHz (50, 60) Hz
0.079 % + 25 V 0.039 % + 73 V 0.05 % + 0.73 mV 0.062 % + 8 mV 0.062 % + 100 mV 0.08 % + 25 V 0.043 % + 73 V 0.043 % + 73 V 0.050 % + 0.73 mV 0.098 % + 19 mV 0.25 % + 0.61 V 0.23 % + 3.5 V
Calibration of AC voltmeters using: Fluke 5500A5520A, and 5522A Multimeter with RD5kV, RD50kV and potential transformer
AC Voltage – Measure
(300 to 700) mV 700 mV to 2 V
300 mV to 1 V (2 to 200) V
(10 to 50) Hz (10 to 50) Hz (10 to 30) kHz (30 to 100) kHz 100 kHz to 1 MHz (10 to 50) Hz
0.026 % 0.035 % 38 V/V 43 V/V 0.041 % 0.029 %
Calibration of voltage generators using: Fluke 792A, DT 72A
(A2LA Cert. No. 1400.03) 05/11/2018 Page 19 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
AC Voltage – Measure (cont)
(1 to 10) V
(10 to 20) V (10 to 100) V (100 to 600) V (0.1 to 1) kV 1 mV to 0.01 V (0.01 to 0.1) V (0.1 to 1) V
(1 to 10) V (10 to 100) V (0.1 to 1) kV 1 mV to 0.01 V (0.01 to 0.1) V (0.1 to 0.3) V (0.3 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV 1 mV to 0.01 V (0.01 to 0.1) V (0.1 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV (1 to 30) kV
(10 to 30) kHz (30 to 100) kHz 100 kHz to 1 MHz 100 kHz to 1 MHz (10 to 30) kHz (30 to 100) kHz (30 to 100) kHz (10 to 30) kHz 50 Hz to 1 kHz (except 50, 60, 400 Hz) 50 Hz to 1 kHz (except 50, 60, 400 Hz) (1 to 10) kHz (1 to 10) kHz (50, 60, 400) Hz (50, 60, 400) Hz (50, 60) Hz
Calibration of voltage generators using: Fluke 792A, DT 72A Multimeter, voltage divider and AC/DC high voltage generator
(A2LA Cert. No. 1400.03) 05/11/2018 Page 20 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
AC Voltage – Measure3
(10 to 100) mV (0.1 to 0.3) V (0.3 to 1) V
(1 to 10) V (10 to 100) V (0.1 to 1) kV (10 to 100) mV (100 to 300) mV (0.3 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV (10 to 100) mV (0.1 to 0.3) V (0.3 to 1) V (1 to 10) V (10 to 100) V (0.1 to 1) kV
(1 to 5) kV (5 to 30) kV
50 Hz to 1 kHz (except 50, 60, 400 Hz) 50 Hz to 1 kHz (except 50, 60, 400 Hz) (1 to 10) kHz (1 to 10) kHz (50, 60, 400) Hz (50, 60, 400) Hz (50, 60) Hz
0.027 % + 4.8 V 0.020 % + 24 V 0.020 % + 66 V 0.019 % + 0.24 mV 0.020 % + 2.4 mV 0.020 % + 33 mV 0.032 % + 4.8 V 0.025 % + 24 V 0.020 % + 66 V 0.020 % + 0.24 mV 0.020 % + 2.4 mV 0.020 % + 34 mV 0.032 % + 4.8 V 0.022 % + 24 V
0.020 % + 24 V 0.021 % + 0.24 mV 0.021 % + 2.4 mV
0.021 % + 33 mV 0.23 % + 3.5 V 0.52 % + 3.5 V
Calibration of voltage generators using: Multimeter Multimeter with RD5kV, RD50kV
AC Current – Generate
(2 to 500) mA (0.5 to 1) A (1 to 2) A (2 to 10) A (10 to 20) A 100 A to 2 mA (20 to 120) A
Calibration of AC current measuring devices using: Fluke 792A with current shunt A40 Digital voltmeter, current transformer and current resistor shunt
(A2LA Cert. No. 1400.03) 05/11/2018 Page 21 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
AC Current – Generate (cont)
(50 to 100) A (100 to 500) A (500 to 950) A (950 to 2000) A (2000 to 3000) A
(50, 60) Hz
0.39 % 0.38 % 0.39 % 0.38 % 0.58 %
Calibrator with current coil
AC Current – Generate3
100 A to 2 mA (2 to 3) mA (3 to 30) mA (30 to 100) mA (100 to 300) mA (0.3 to 2) A (2 to 5) A (5 to 10) A (10 to 20) A (20 to 120) A (50 to 100) A (100 to 500) A (500 to 950) A (950 to 2000) A (2000 to 3000) A
50 Hz to 1 kHz (50, 60) Hz (50, 60) Hz
0.13 % + 0.40 A 0.13 % + 0.40 A 0.12 % + 3.7 A 0.12 % + 37 A 0.12 % + 37 A 0.13 % + 0.37 mA 0.13 % + 2.5 mA 0.13 % + 2.5 mA 0.15 % + 6.1 mA 0.16 % + 2.4 mA 0.39 % + 110 mA 0.38 % + 110 mA 0.41 % + 110 mA 0.39 % + 220 mA 0.58 % + 280 mA
Calibration of AC current measuring devices using: Fluke 5500A 5520A, and 5522A Fluke 52120A Calibrator with current coil (ex. clamp meter)
AC Current – Measure
(2 to 500) mA (0.5 to 1) A (1 to 2) A (2 to 5) A (5 to 10) A (10 to 20) A 100 A to 2 mA (20 to 120) A Current Coil Turns
(10 to 50) Turns
50 Hz to 1 kHz 50 Hz to 1 kHz (50, 60) Hz (50, 60) Hz
Calibration of current generators using: Fluke 792A and current shunt A40 Digital voltmeter, current transformer and current resistor shunt Calibrator
(A2LA Cert. No. 1400.03) 05/11/2018 Page 22 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
AC Current – Measure3
100 A to 2 mA (2 to 10) mA (10 to 100) mA (0.1 to 1) A (1 to 2) A (2 to 20) A (20 to 120) A
50 Hz to 1 kHz (50, 60) Hz
0.050 % + 24 nA 0.041 % + 0.24 A 0.044 % + 2.4 A 0.047 % + 48 A 0.047 % + 96 A 0.048 % + 0.96 mA 0.16 % + 2.4 mA
Calibration of current generators using: Multimeter with shunts and current transformer
AC Power – Generate3
10 W to 6 kW ≤ 1000 V, ≤ 50 A PF: 1 ≤ 1000 V, ≤ 50 A PF: 0(lag) ~ 1 ~ 0(lead)
≤ 1000 V, ≤ 950 A PF: 1, with current coil
≤ 1000 V, ≤ 950 A PF: 0(lag) ~ 1 ~ 0(lead), with current coil
(50, 60) Hz (50, 60) Hz Single Phase Three Phase – Three Wire Three Phase – Four Wire Single Phase Three Phase – Three Wire Three Phase – Four Wire Single Phase Three Phase – Three Wire Three Phase – Four Wire Single Phase Three Phase – Three Wire Three Phase – Four Wire
Calibration of watt meters & power analyzers using: Watt converter Multimeter, calibrator, current transformer and phase meter Multimeter, calibrator, current transformer and phase meter Multimeter, calibrator, current transformer, phase meter and current coil Multimeter, calibrator, current transformer, phase meter and current coil
(A2LA Cert. No. 1400.03) 05/11/2018 Page 23 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
AC Energy – Generate3 ≤ 1000 V, ≤ 50 A PF: 1 ≤ 1000 V, ≤ 50 A PF: 0(lag) ~ 1 ~ 0 (lead) ≤ 1000 V, ≤ 500 A PF: 1, with current coil
≤ 1000 V, ≤ 500 A PF: 0 (lag) ~ 1 ~ 0 (lead), with current coil
(50, 60) Hz Single Phase Three Phase – Three Wire Three Phase – Four Wire
Single phase Three Phase – Three Wire Three Phase – Four Wire Single Phase Three Phase – Three Wire Three Phase – Four Wire Single Phase Three Phase – Three Wire Three Phase – Four Wire
Calibration of watt meters & power analyzers using: Multimeter, calibrator, current transformer, phase meter and time counter Multimeter, calibrator, current transformer, phase meter and time counter Multimeter, calibrator, current transformer, phase meter, current coil and time counter Multimeter, calibrator, current transformer, phase meter, current coil and time counter
AC Power – Measure
1 mW to 10 W 10 W to 6 kW (6 to 20) kW (20 to 50) kW
(50, 60) Hz
0.10 % + 0.1 mW 0.060 % 0.060 % 0.070 %
Calibration of Watt generators & power analyzers using: Fluke 792A and current shunt A40 Watt converter Calibrator multimeter and shunt resistor Calibrator multimeter and CT
50 Hz to 1 kHz 1 kHz 1 kHz to 1 MHz (1 to 2) MHz (2 to 3) MHz (3 to 4) MHz (4 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz 1 kHz to 1 MHz (1 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz (1 to 100) kHz 100 kHz to 3 MHz (3 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz
Calibration of AC resistance meters using: Standard AC resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 25 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
AC Resistance – Generate3 (cont)
Ranges 0.1 Ω to 10 kΩ (10 to 100) kΩ 10 Ω to 100 kΩ
Resistance
Fixed Points 10 Ω 100 Ω 1 kΩ 10 kΩ 100 kΩ
50 Hz to 1 kHz 1 kHz 1 kHz to 1 MHz 1 kHz 1 kHz to 1 MHz (1 to 2) MHz (2 to 3) MHz (3 to 4) MHz (4 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz 1 kHz to 1 MHz (1 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz (1 to 100) kHz 100 kHz to 3 MHz (3 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz
Calibration of AC resistance meters using: Impedance meter with standard AC resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 26 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
AC Resistance – Measure Impedance Fixed Points
10 Ω 100 Ω 1 kΩ 10 kΩ 100 kΩ
50 Hz to 1 kHz 1 kHz 1 kHz to 1 MHz (1 to 2) MHz (2 to 3) MHz (3 to 4) MHz (4 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz 1 kHz to 1 MHz (1 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz (1 to 100) kHz 100 kHz to 3 MHz (3 to 5) MHz (5 to 10) MHz (10 to 13) MHz 50 Hz to 1 kHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz
Calibration of AC resistors using: DMM and AC current generator and impedance meter with standard AC resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 27 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
AC Resistance – Measure Resistance Fixed Points
10 Ω 100 Ω 1 kΩ 10 kΩ 100 kΩ
1 kHz 1 kHz to 1 MHz (1 to 2) MHz (2 to 3) MHz (3 to 4) MHz (4 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz 1 kHz to 1 MHz (1 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz (1 to 100) kHz 100 kHz to 3 MHz (3 to 5) MHz (5 to 10) MHz (10 to 13) MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz 1 kHz (1 to 100) kHz 100 kHz to 1 MHz
Calibration of capacitors using: Standard capacitors and capacitance meter, Impedance meter
(A2LA Cert. No. 1400.03) 05/11/2018 Page 30 of 62
Parameter/Range
Frequency CMC2, 5, 7 ()
Comments
Capacitance – Measure3
100 pF to 1 F (1 to 10) F
1 kHz
0.068 % 0.19 % + 0.001 F
Calibration of capacitors using: Capacitance meters
Inductance – Generate3
Fixed Points 100 µH 1 mH 10 mH 100 mH 1000 mH
1 kHz
0.51 % 0.11 % 0.11 % 0.11 % 0.11 %
Calibration of inductance meter using: Standard inductor
Inductance – Measure3
Fixed Points 100 µH 1 mH 10 mH 100 mH 1000 mH
1 kHz
0.51 % 0.11 % 0.11 % 0.11 % 0.11 %
Calibration of inductor using: Standard inductor
(A2LA Cert. No. 1400.03) 05/11/2018 Page 31 of 62
Parameter/Range
Frequency CMC2, 5 ()
Comments
Phase3 (0 to 360)°
20 Hz to 2 kHz (2 to 5) kHz (5 to 10) kHz (10 to 50) kHz
0.028° 0.038° 0.049° 0.060°
Phase meter
Power Factor3
(50 to 60) Hz |cos(A) – cos(A +
0.028 )| Phase meter (A is the angle in degrees)
Parameter/Equipment
Range CMC2 ()
Comments
Electrical Calibration of Thermocouple Temperature Indicators3 –
Type K Type J Type E
Type T Type R
(-200 to -170) °C (-170 to -100) °C (-100 to -20) °C (-20 to 1372) °C (-210 to -170) °C (-170 to -120) °C (-120 to -20) °C (-20 to 1200) °C (-250 to -220) °C (-220 to -180) °C (-180 to -70) °C (-70 to 1000) °C (-250 to -230) °C (-230 to -170) °C (-170 to -90) °C (-90 to -20) °C (-20 to 300) °C (300 to 400) °C (0 to 50) °C (50 to 250) °C (250 to 400) °C (400 to 800) °C (800 to 1760) °C
0.63 °C 0.47 °C 0.42 °C 0.43 °C 0.49 °C 0.46 °C 0.45 °C 0.44 °C 0.61 °C 0.44 °C 0.40 °C 0.38 °C 1.2 °C 0.62 °C 0.46 °C 0.42 °C 0.41 °C 0.40 °C 1.1 °C 0.80 °C 0.67 °C 0.63 °C 0.54 °C
Calibration of temperature meters using: Fluke 5500A, 5520A and 5522A
(A2LA Cert. No. 1400.03) 05/11/2018 Page 32 of 62
Parameter/Equipment
Range CMC2 ()
Comments
Electrical Calibration of Thermocouple Temperature Indicators3 – (cont)
Type S
Type N
(0 to 50) °C (50 to 250) °C (250 to 400) °C (400 to 800) °C (800 to 1760) °C (-200 to -170) °C (-170 to -100) °C (-100 to -20) °C (-20 to 410) °C (410 to 1300) °C
1.1 °C 0.80 °C 0.67 °C 0.63 °C 0.59 °C 0.72 °C 0.44 °C 0.39 °C 0.37 °C 0.44 °C
Calibration of temperature meters using: Fluke 5500A, 5520A and 5522A
Electrical Calibration of RTDs3 –
Pt385, 100 Ω & JPt-100
(-200 to 850) °C
0.090 °C
Decade resistors
(A2LA Cert. No. 1400.03) 05/11/2018 Page 33 of 62
Parameter/Equipment
Range CMC2 ()
Comments
Electrical Calibration of Thermocouple Temperature Calibrators –
Type K
Type J
Type E Type T
(-270 to -230) °C (-230 to -200) °C (-200 to -170) °C (-170 to -100) °C (-100 to -20) °C (-20 to 1200) °C (1200 to 1372) °C (-210 to -170) °C (-170 to -120) °C (-120 to -20) °C (-20 to 1200) °C (-270 to -250) °C (-250 to -220) °C (-220 to -180) °C (-180 to -70) °C (-70 to -20) °C (-20 to 1000) °C (-270 to -230) °C (-230 to -170) °C (-170 to -90) °C (-90 to -20) °C (-20 to 300) °C (300 to 400) °C
0.94 °C 0.50 °C 0.30 °C 0.27 °C 0.20 °C 0.17 °C 0.18 °C 0.27 °C 0.20 °C 0.16 °C 0.15 °C 1.1 °C 0.50 °C 0.27 °C 0.20 °C 0.16 °C 0.14 °C 1.1 °C 0.50 °C 0.27 °C 0.20 °C 0.18 °C 0.15 °C
Calibration of temperature meter calibrators using: Multimeter and glass thermometers
(A2LA Cert. No. 1400.03) 05/11/2018 Page 34 of 62
Parameter/Equipment
Range CMC2, 5 ()
Comments
Electrical Calibration of Thermocouple Temperature Calibrators – (cont)
Type R Type S
Type N
(-50 to 0) °C (0 to 50) °C (50 to 250) °C (250 to 400) °C (400 to 800) °C (800 to 1760) °C (-50 to 0) °C (0 to 50) °C (50 to 250) °C (250 to 400) °C (400 to 800) °C (800 to 1760) °C (-270 to -230) °C (-230 to -170) °C (-170 to -100) °C (-100 to -20) °C (-20 to 1200) °C (1200 to 1370) °C
1.4 °C 0.98 °C 0.70 °C 0.55 °C 0.50 °C 0.39 °C 1.4 °C 0.98 °C 0.70 °C 0.55 °C 0.50 °C 0.46 °C 0.71 °C 0.50 °C 0.26 °C 0.22 °C 0.21 °C 0.18 °C
Calibration of temperature meter calibrators using: Multimeter and glass thermometers
Electrical Calibration of Strain Calibrators
(20 000 to 200 000) × 10-6 (10 to 100) mV/V (2000 to 20 000) × 10-6 (1 to 10) mV/V (20 to 2000) × 10-6 (0.01 to 1) mV/V
0.010 % 0.060 % 0.070 %
Calibration of strain calibrator using: Multimeter, voltage generator
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Parameter/Equipment
Range CMC2, 5 ()
Comments
Electrical Calibration of Strain Indicators3
(20 000 to 200 000) × 10-6 (10 to 100) mV/V (2000 to 20 000) × 10-6 (1 to 10) mV/V (20 to 2000) × 10-6 (0.01 to 1) mV/V
0.020 % or one LSD, whichever is greater 0.070 % or one LSD, whichever is greater 0.17 % or one LSD, whichever is greater
Calibration of strain meter using: Strain calibrator; LSD = least significant digit
IV. Electrical – RF/Microwave
Parameter/Range Frequency CMC2, 5 ()
Comments
High Frequency Voltage –
0.5 V (0.1 to 0.7) V (0.01 to 0.1) V (0.1 to 0.3) V
(0.3 to 0.5) V (0.5 to 3) V
(10 to 120) dB/V
(10 to 500) MHz (500 to 1000) MHz (10 to 500) MHz (500 to 1000) MHz 10 kHz to 1 MHz (1 to 10) MHz 10 kHz to 1 MHz (1 to 10) MHz (1 to 10) MHz (1 to 10) MHz (10 to 500) MHz (500 to 1000) MHz
10 kHz to 1 MHz (1 to 10) MHz 10 kHz to 1 MHz (1 to 10) MHz (10 to 500) MHz (500 to 1000) MHz
1.8 % 2.6 % 1.8 % 2.0 % 0.25 dB 0.30 dB
Rohde & Schwartz URV5 Measuring receiver
High Frequency Power3 –
> 100 pW to 1 nW
(> 1 to 100) nW
(> 1 to 10) nW > 100 nW to 100 mW > 10 nW to 100 mW
> 10 μW to 100 mW
1 mW > 100 mW to 100 W (> 100 to 200) W
(10 to 50) MHz 50 MHz to 6 GHz (6 to 12) GHz (9 to 10) kHz 10 kHz to 10 MHz (10 to 50) MHz 50 MHz to 6 GHz (6 to 12) GHz (12 to 18) GHz (9 to 10) kHz 10 kHz to 10 MHz (10 to 50) MHz 50 MHz to 6 GHz (6 to 12) GHz (12 to 18) GHz (18 to 24) GHz (24 to 32) GHz (32 to 36) GHz (36 to 40) GHz 9 kHz to 10 MHz (10 to 50) MHz 50 MHz to 6 GHz (6 to 12) GHz (12 to 18) GHz (18 to 24) GHz (24 to 32) GHz (32 to 36) GHz (36 to 40) GHz 10 MHz to 1 GHz (10 to 250) MHz
Power meter, sensor, attenuator and signal calibrator with mixer Power meter, sensor and directional coupler
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Parameter/Range Frequency CMC2, 5 ()
Comments
Modulation3-
Amplitude Modulation Frequency Modulation Deviation
(20 to 100) % (1 to 200) kHz
2.1 % 0.26 %
Attenuator, HP 8902A Tektronix AFG3022
Noise Level
9 kHz to 40 GHz 0.6 dB
Spectrum analyzer
Electromagnetic Wave Attenuation3– Generate
(0 to 40) dB (40 to 60) dB (0 to 20) dB (20 to 40) dB (40 to 60) dB (0 to 40) dB (40 to 50) dB (50 to 60) dB 10 dB 50 dB 70 dB 10 dB 50 dB 60 dB (0 to 50) dB (> 50 to 100) dB (0 to 50) dB (> 50 to 100) dB (0 to 60) dB
50 Hz to 1 kHz (1 to 10) kHz 10 kHz to 10 MHz 10 MHz to 12 GHz (12 to 18) GHz 10 MHz to 12 GHz (12 to 18) GHz (18 to 40) GHz
0.01 dB 0.015 dB 0.01 dB 0.02 dB 0.07 dB 0.06 dB 0.08 dB 0.20 dB 0.024 dB 0.024 dB 0.025 dB 0.027 dB 0.032 dB 0.032 dB 0.03 dB 0.04 dB 0.04 dB 0.05 dB 0.20 dB
(0 to 40) dB (40 to 60) dB (0 to 20) dB (20 to 40) dB (40 to 60) dB (0 to 40) dB (40 to 50) dB (50 to 60) dB (0 to 50) dB (> 50 to 70) dB (> 70 to 80) dB (> 80 to 90) dB (0 to 90) dB (0 to 60) dB
50 Hz to 1 kHz (1 to 10) kHz 10 kHz to 10 MHz 10 MHz to 12 GHz (12 to 18) GHz (18 to 40) GHz
0.01 dB 0.015 dB 0.01 dB 0.02 dB 0.07 dB 0.06 dB 0.08 dB 0.20 dB 0.040 dB 0.050 dB 0.090 dB 0.63 dB 0.15 dB 0.25 dB
Level Attenuation Resolution BW Impulse BW Center Frequency
Overall Selectivity (Pass-Band) Impedance
Pulse Response (Relative Level)
Pulse Response (Absolute Level) Noise Level Response to Intermittent, Unsteady and Drifting Narrowband Disturbances
9 kHz to 5 MHz 5 MHz to 1 GHz (1 to 3) GHz (3 to 12) GHz (12 to 40) GHz (10 to 1300) MHz 200 Hz to 1 MHz 1 MHz 9 kHz to 40 GHz ≤ 10 dB > 10 dB 10 dB 0 dB (5 to 1000) Hz (1 to 2) Hz and Isolated Pulse Band A: 25 Hz Band B, C, D: 100 Hz 9 kHz to 40 GHz 9 kHz to 1 GHz
0.30 dB 0.50 dB 0.30 dB 0.40 dB 0.50 dB 0.20 dB 5.0 % 5.0 % 2.0 Hz/Hz 1.5 % of Resolution Bandwidth 3.0 % 5.0 % 0.50 dB 0.70 dB 0.50 dB 0.50 dB 0.6 dB 0.40 dB
Peak Voltage Under / Overshoot Voltage (1.2/50 s) Front Time Rise Time Time to Half Value Duration Time
(10/700 s) Front Time Rise Time
Time to Half Value/ Duration Time
Short Circuit Current Waveform
Peak Current Under / Over Shoot Current (8/20 s) Front Time Rise Time
Time to Half Value
Duration Time
(5/320 s) Front Time Rise Time
Time to Half Value Duration Time
Phase Shifting
± (0.5 to 7) kV ± 10 % ± (0 to 2.1) kV 1.2 s ± 30 % 1 s ± 30 % 50 s +10 s /-10 to -35 s 50 s ± 20 % 10 s ± 30 % 6.5 s ± 30 % 700 s ± 20 % 700 s ± 20 % ± (12.5 A to 3.5 kA) ± 10 % ± (0 to 1.05) kA 8 s ± 20 % 2.5 s ± 30 % 6.4 s ± 20 % 20 s ± 20 % 25 s ± 30 % 16 s ± 20 % 5 s ± 20 % 4 s ± 20 % 320 s ± 20 % 300 s ± 20 % (0 to 360)°
3.5 % 3.5 % of Peak Voltage 16 ns 16 ns 0.35 s 0.35 s 0.10 s 0.10 s 5.0 s 5.0 s 3.0 % 3.0 % of Peak Current 70 ns 80 ns 70 ns 0.15 s 0.25 s 0.15 s 50 ns 50 ns 3.0 s 3.0 s 0.78°
(0 to 2) MPa (2 to < 3) MPa (3 to < 4) MPa (4 to < 5) MPa (5 to < 5.5) MPa (5.5 to < 100) MPa (100 to < 250) MPa
1.0 kPa 1.2 kPa 1.5 kPa 1.8 kPa 2.0 kPa 0.017 % or 3.4 kPa, whichever is larger 0.30 MPa
Pressure balance, digital pressure gauge
Pressure Gage
Air Pressure (Gage Pressure)
(-100 to 0) kPa (0 to < 150) kPa (150 to < 200) kPa (200 to < 500) kPa (500 to < 1000) kPa (1000 to < 1500) kPa (1500 to < 2000) kPa (2000 to < 2500) kPa (2500 to < 3000) kPa (3000 to < 3500) kPa
25 Pa 13 Pa 16 Pa 0.0075 % 82 Pa 0.13 kPa 0.17 kPa 0.24 kPa 0.27 kPa 0.30 kPa
Pressure controller, pressure balance
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Parameter/Equipment
Range CMC2, 5 ()
Comments
Pressure Gage –
Air Pressure Low Pressure (Gage Pressure and Differential Pressure)
(-20 to < -15) kPa (-15 to < -10) kPa (-10 to < -7.5) kPa (-7.5 to < -5) kPa (-5 to < -2.5) kPa (-2.5 to < -1) kPa (-1 to 0) kPa (0 to < 1) kPa (1 to < 2.5) kPa (2.5 to < 5) kPa (5 to < 7.5) kPa (7.5 to < 10) kPa (10 to < 15) kPa (15 to < 20) kPa
4.5 Pa 3.5 Pa 2.5 Pa 1.9 Pa 1.5 Pa 1.2 Pa 0.90 Pa 0.90 Pa 1.2 Pa 1.5 Pa 1.9 Pa 2.5 Pa 3.5 Pa 4.5 Pa
(8 to 75) kPa (75 to < 100) kPa (100 to < 150) kPa (150 to < 200) kPa (200 to < 250) kPa (250 to < 300) kPa (300 to < 350) kPa
27 Pa 29 Pa 36 Pa 44 Pa 53 Pa 61 Pa 71 Pa
Pressure controller, digital pressure gauge
Pressure Balance –
Oil Pressure (Gage Pressure)
(0.5 to 5) MPa (5 to < 10) MPa (10 to < 100) MPa
3.5 kPa 4.3 kPa 22 kPa or 0.044 %, whichever is larger
Digital pressure gauge
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Parameter/Equipment
Range CMC2 ()
Comments
Scales & Balances (Electric Type and Mechanical Type)
(< 500 to 600) kg (< 450 to 500) kg (< 400 to 450) kg (< 350 to 400) kg (< 300 to 350) kg (< 150 to 300) kg (< 12 to 150) kg (< 5 to 12) kg (< 2 to 5) kg (< 1 to 2) kg (< 90 to 1000) g (< 50 to 90) g (< 40 to 50) g (< 30 to 40) g (< 20 to 30) g (< 10 to 20) g (< 5 to 10) g (< 3 to 5) g (< 2 to 3) g (< 1 to 2) g (< 0.9 to 1) g (< 0.7 to 0.9) g (< 0.5 to 0.7) g (< 0.4 to 0.5) g (< 0.3 to 0.4) g (< 0.2 to 0.3) g (< 0.1 to 0.2) g (< 0.09 to 0.1) g (< 0.08 to 0.09) g (< 0.07 to 0.08) g (< 0.06 to 0.07) g (< 0.05 to 0.06) g (< 0.04 to 0.05) g (< 0.03 to 0.04) g
Calibration using class E2, F1, F2, M1, and M2 weights
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Parameter/Equipment
Range CMC 2 ()
Comments
Scales & Balances (Electric Type and Mechanical Type) (cont)
(< 0.02 to 0.03) g (< 0.01 to 0.02) g (< 0.009 to 0.01) g (< 0.008 to 0.009) g (< 0.007 to 0.008) g (< 0.006 to 0.007) g (< 0.005 to 0.006) g (< 0.004 to 0.005) g (< 0.003 to 0.004) g (< 0.002 to 0.003) g (< 0.001 to 0.002) g 0.001 g
10 mN to 2 kN (Tension) 10 mN to 0.5 kN (Compression)
0.10 % 0.10 %
Weights
Tension Gage3
10 mN to 2 kN
0.20 % F.S
Weights
Compression Gage3
10 mN to 0.5 kN
0.20 % F.S.
Weights
Parameter/Range
Frequency CMC2, 5 ()
Comments
Accelerometer Sensitivity Voltage Sensitivity (10-5 to 103) V/(m/s2)
(20 to < 31.5) Hz (31.5 to 160) Hz (> 160 to 200) Hz (> 200 to 250) Hz (> 250 to 315) Hz (> 315 to 400) Hz (> 0.4 to 2) kHz (> 2 to 5) kHz (> 5 to 10) kHz (5 to 200) Hz (> 200 to 250) Hz (> 250 to 315) Hz (> 315 to < 500) Hz (500 to 2000) Hz (> 2 to 5) kHz (> 5 to 10) kHz
Accelerometer Sensitivity Charge Sensitivity (10-4 to 106) pC/(m/s2)
(20 to < 31.5) Hz (31.5 to 160) Hz (> 160 to 200) Hz (> 200 to 250) Hz (> 250 to 315) Hz (> 315 to 400) Hz (> 0.4 to 2) kHz (> 2 to 5) kHz (> 5 to 10) kHz (5 to 250) Hz (> 250 to 315) Hz (> 315 to < 500) Hz (500 to 2000) Hz (> 2 to 5) kHz (> 5 to 10) kHz
Secondary vibration calibration: Acceleration Velocity Displacement Frequency
Direct Verification of Rockwell Hardness Testing Machines3 –
Verification of the Test Force Verification of the Measuring Device
(588.4 to 1471) N (60 to 150) kgf (147.1 to 294.2) N (15 to 30) kgf (0 to 250) μm (0 to 100) μm
0.95 N 0.54 N 0.76 μm 0.55 μm
Direct calibration method per JIS B 7726 or ASTM E18 Verification of the test force by force-proving instruments per the method of ASTM E4 Verification of the test force by force-proving instruments per the method of ASTM E4 Force-proving instruments Index-Master Index-Master Note: not full verification
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Parameter/Equipment
Range CMC2 ()
Comments
Indirect Verification of Rockwell Hardness Testing Machines3
Indirect calibration method per ASTM E18 test blocks
Indirect Verification of MicroVickers Hardness Testing Machines3
(100 to 250) HV (> 250 to 650) HV (> 650 to 900) HV
3.2 HV 36 HV 10 HV
Indirect calibration method per JIS B 7725 or ASTM E384 or ASTM E92 standard blocks
Indirect Verification of Knoop Hardness Testing Machines3
(100 to 250) HK (> 250 to 650) HK (> 650 to 900) HK
21 HK 34 HK 51 HK
Indirect calibration method per JIS B 7734 or ASTM E384 or ASTM E92 standard blocks
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Parameter/Equipment
Range CMC2 ()
Comments
Direct Verification of MicroVickers and Knoop Hardness Testing Machines3 – Verification of the Test Force Verification of the Measuring Device
98.07 mN to 19.61 N 10 gf to 2 kgf (0 to 1) mm
0.037 N 1.3 μm
Direct calibration method per JIS B 7725 or JIS B 7734 or ASTM E384 or ASTM E92 Verification of the test force by force-proving instruments and electric balance Per the method of ASTM E4 Stage micrometer Note: not full verification
Indirect Verification of Vickers Hardness Testing Machines3
(100 to 250) HV (> 250 to 650) HV (> 650 to 900) HV
6.0 HV 16 HV 20 HV
Indirect calibration method per JIS B 7725 or ASTM E384 or ASTM E92 standard blocks
Direct Verification of Vickers Hardness Testing Machines3 – Verification of the Test Force Verification of the Measuring Device
(19.61 to 490.3) N (2 to 50) kgf (0 to 1) mm
0.73 N 1.3 μm
Direct calibration method per JIS B 7725 or ASTM E384 or ASTM E92 Verification of the test force by force-proving instruments per the method of ASTM E4 Stage micrometer Note: Not full verification
Indirect Verification of Brinell Hardness Testing Machines3
(250 to 450) HBW (100 to 250) HBW
5.0 HBW 3.5 HBW
Indirect calibration method per JIS B7724 standard blocks
Indirect Verification of Brinell Hardness Testing Machines3
(225 to 450) HBW (125 to 225) HBW
6.2 HBW 2.6 HBW
Indirect calibration method per ASTM E10 standard blocks
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Parameter/Equipment
Range CMC2, 5 ()
Comments
Direct Verification of Brinell Hardness Testing Machines3 – Verification of the Test Force Verification of the Measuring Device
(4.903 to 29.42) kN (500 to 3000) kgf (0 to 8) mm
0.085 kN 4.3 μm
Direct calibration method per JIS B7724 force-proving instruments Stage micrometer Note: not full verification
Direct Verification of Brinell Hardness Testing Machines3
(4.903 to 29.42) kN (500 to 3000) kgf (0 to 8) mm
2.6 HBW
Direct calibration method per ASTM E10 verification of the test force by force-proving instruments and stage micrometer per the method of ASTM E4 Conversion to HBW Note: not full verification
Shore Hardness Testing Machine3
(25 to 100) HS (VHS)
0.62 HS
Indirect calibration method per JIS B7727 Standard blocks
1 This laboratory offers commercial and field calibration service. 2 Calibration and Measurement Capability (CMC) uncertainty is the smallest uncertainty of measurement that a laboratory can achieve within its scope of accreditation when performing more or less routine calibrations of nearly ideal measurement standards or nearly ideal measuring equipment. CMCs represent expanded uncertainties expressed at approximately the 95 % level of confidence, usually using a coverage factor of k = 2. The actual measurement uncertainty of a specific calibration performed by the laboratory may be greater than the CMC uncertainty due to the behavior of the customer’s device and to influences from the circumstances of the specific calibration
3 Field calibration service is available for this calibration and this laboratory meets A2LA R104 – General Requirements: Accreditation of Field Testing and Field Calibration Laboratories for these calibrations. Please note the actual measurement uncertainties achievable on a customer's site can normally be expected to be larger than the CMC uncertainty found on the A2LA Scope. Allowance must be made for aspects such as the environment at the place of calibration and for other possible adverse effects such as those caused by transportation of the calibration equipment. The usual allowance for the actual uncertainty introduced by the item being calibrated, (e.g. resolution) must also be considered and this, on its own, could result in the actual measurement uncertainty achievable on a customer’s site being larger than the CMC uncertainty.
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4 In the statement of CMC uncertainty, L is the numerical value of the nominal length of the device measured in mm. Γ represents a ratio. 5 Unless otherwise noted, in the statement of CMC uncertainty, % is the uncertainty percentage of the relative value of the reading, or the relative value of the reading plus floor specification. 6 The CMC uncertainty for liquid-in-glass thermometers is based on total immersion method. The liquid-in-glass thermometers calibrated by partial immersion method will have a larger CMC 7 The stated measured values are determined using the indicated instrument (see Comments). This capability is suitable for the calibration of the devices intended to measure or generate the measured value in the ranges indicated. CMCs are expressed as either a specific value that covers the full range or as a percent or fraction of the reading plus a fixed floor specification. 8 This accreditation covers calibrations performed at all laboratory locations listed in this scope of accreditation.
For the calibrations to which this accreditation applies, please refer to the laboratory’s Calibration Scope of Accreditation.
Accredited Laboratory
A2LA has accredited
JAPAN QUALITY ASSURANCE ORGANIZATION Osaka, JAPAN
for technical competence in the field of
Calibration
This laboratory is accredited in accordance with the recognized International Standard ISO/IEC 17025:2005 General requirements for the competence of testing and calibration laboratories. This laboratory also meets R205 – Specific Requirements: Calibration Laboratory Accreditation Program. This accreditation demonstrates technical competence for a
defined scope and the operation of a laboratory quality management system (refer to joint ISO-ILAC-IAF Communiqué dated April 2017).
Presented this 11th day of May 2018. _______________________ President and CEO For the Accreditation Council Certificate Number 1400.03 Valid to March 31, 2020