(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 1 of 12 SCOPE OF ACCREDITATION TO ISO/IEC 17025:2005 & ANSI/NCSL Z540-1-1994 NI HUNGARY KFT NATIONAL INSTRUMENTS CALIBRATION SERVICES DEBRECEN Hatar ut 1/A Debrecen, Hungary H4031 Tibor Bernath Phone: +36 52 515 400 CALIBRATION Valid To: October 31, 2018 Certificate Number: 3634.01 In recognition of the successful completion of the A2LA evaluation process, accreditation is granted to this laboratory to perform the following calibrations 1 : I. Electrical – DC/Low Frequency Parameter/Equipment Range CMC 2, 6 () Comments DC Voltage 3 – Generate 0 V (0 to 2.2) V (2.2 to 11) V (22 to 220) V (220 to 1100) V 0.20 µV 3.5 µV/V + 0.70 µV 2.5 µV/V + 2.5 µV 3.5 µV/V + 40 µV 4.6 µV/V + 400 µV Two wire short reference calibrator DC Voltage 3, 5 – Measure 0 V (0 to 0.1) V (0.1 to 1) V (1 to 10) V (10 to 100) V (100 to 1000) V 1.0 µV 7.3 µV/V + 0.2 µV 6.7 µV/V + 0.2 µV 6.7 µV/V + 0.33 µV 8.0 µV/V + 20 µV 16 µV/V + 67 µV Reference digital multimeter
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(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 1 of 12
SCOPE OF ACCREDITATION TO ISO/IEC 17025:2005 & ANSI/NCSL Z540-1-1994
NI HUNGARY KFT NATIONAL INSTRUMENTS CALIBRATION
SERVICES DEBRECEN Hatar ut 1/A
Debrecen, Hungary H4031 Tibor Bernath Phone: +36 52 515 400
CALIBRATION
Valid To: October 31, 2018 Certificate Number: 3634.01 In recognition of the successful completion of the A2LA evaluation process, accreditation is granted to this laboratory to perform the following calibrations1: I. Electrical – DC/Low Frequency
Parameter/Equipment
Range CMC2, 6 ()
Comments
DC Voltage3 – Generate
0 V (0 to 2.2) V (2.2 to 11) V (22 to 220) V (220 to 1100) V
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 2 of 12
Parameter/Equipment
Range CMC2, 4, 6 ()
Comments
DC Current3 – Generate
0 µA (2.2 to 22) mA (2.2 to 220) mA (0.22 to 2.2) A (2.2 to 5) A (0.9 to 1) µA (1 to 10) µA (10 to 100) µA (0.10 to 1.0) mA
4.9 pA 30 µA/A + 40 nA 40 µA/A + 0.70 µA 60 µA/A + 12 µA 0.05 % + 500 µA 25 µA/A + 40 pA 25 µA/A + 0.1 nA 20 µA/A + 0.62 nA 20 µA/A + 3.9 nA
Open Reference calibrator Reference calibrator, digital multimeter
DC Current3 – Measure
(0 to 1) µA (1 to 10) µA (10 to 100) µA 100 µA to 1 mA (1 to 10) mA (10 to 100) mA (0.1 to 1.0) A (1.0 to 2.0) A (2.0 to 3.0) A 9 nA (0.9 to 10) µA 1 A 3 A
13 µA/A + 27 pA 13 µA/A + 67 pA 13 µA/A + 530 pA 13 µA/A + 3.3 nA 13 µA/A + 33 nA 23 µA/A + 330 nA 73 µA/A + 6.7 µA 0.039 % + 90 µA 0.069 % + 90 µA 50 µA/A 19 µA/A 65 µA/A 130 µA/A
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 3 of 12
Parameter/Equipment
Range CMC2, 6 ()
Comments
Resistance3 – Measure
(0 to 100) Ω (100 to 1000) Ω (1 to 10) kΩ (10 to 100) kΩ (100 to 1000) kΩ (1 to 10) MΩ (10 to 30) MΩ (30 to 100) MΩ
31 µ/ + 0.43 m 26 µ/ + 0.50 m 26 µ/ + 5.0 m 28 µ/ + 0.10 30 µ/ + 1.0 70 µ/ + 100 0.024 % + 900 0.55 % + 1.0 k
NI 4071
Resistance3, 5 – Generate
Up to 10.9999 Ω (11 to 32.9999) (33 to 109.9999) (110 to 329.9999) (0.33 to 1.099999) k (1.1 to 3.299999) k (3.3 to 10.99999) k (11 to 32.99999) k (33 to 109.999) k (110 to 329.999) k
40 / + 1.0 m 30 / + 1.5 m 28 / + 1.4 m 28 / + 2.0 m 28 / + 2.0 m 28 / + 20 m 28 / + 20 m 28 / + 0.20 28 / + 0.20 32 / + 2.0
Reference calibrator
Parameter/Range
Frequency CMC2, 4, 6 ()
Comments
AC Voltage3 – Generate
(2.2 to 22) mV
(22 to 220) mV
(10 to 20) Hz (20 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (300 to 500) kHz 500 kHz to 1 MHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (300 to 500) kHz 500 kHz to 1 MHz
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 4 of 12
Parameter/Range
Frequency CMC2, 4, 6 ()
Comments
AC Voltage3 – Generate (cont)
220 mV to 2.2 V
(2.2 to 22) V
(22 to 220) V (220 to 1100) V
(10 to 20) Hz (20 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (300 to 500) kHz 500 kHz to 1 MHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (300 to 500) kHz 500 kHz to 1 MHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (300 to 500) kHz 500 kHz to 1 MHz (15 to 50) Hz 50 Hz to 1 kHz
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 5 of 12
Parameter/Range
Frequency CMC2, 4, 6 ()
Comments
AC Voltage3 – Measure
(1 to 50) mV (50 to 500) mV 500 mV to 5 V (5 to 50) V (50 to 700) V
(1 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (1 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (1 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (1 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz (1 to 40) Hz 40 Hz to 20 kHz (20 to 50) kHz (50 to 100) kHz (100 to 300) kHz
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 6 of 12
Parameter/Range
Frequency CMC2, 4, 6 ()
Comments
AC Current3 – Generate
(0 to 220) µA (0.22 to 2.2) mA (2.2 to 22) mA (22 to 220) mA (0.22 to 2.2) A
(10 to 20) Hz (20 to 40) Hz 40 Hz to 1 kHz (1 to 5) kHz (5 to 10) kHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 1 kHz (1 to 5) kHz (5 to 10) kHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 1 kHz (1 to 5) kHz (5 to 10) kHz (10 to 20) Hz (20 to 40) Hz 40 Hz to 1 kHz (1 to 5) kHz (5 to 10) kHz 20 Hz to 1 kHz (1 to 5) kHz (5 to 10) kHz
0.023 % + 16 nA 0.014 % + 10 nA 0.011 % + 8.0 nA 0.025 % + 12 nA 0.090 % + 65 nA 0.23 % + 40 nA 0.014 % + 35 nA 0.011 % + 35 nA 0.018 % + 110 nA 0.090 % + 650 nA 0.023 % + 400 nA 0.014 % + 350 nA 0.011 % + 350 nA 0.018 % + 550 nA 0.090 % + 5.0 µA 0.023 % + 4.0 µA 0.014 % + 3.5 µA 0.011 % + 2.5 µA 0.018 % + 3.5 µA 0.090 % + 10 µA 0.024 % + 35 µA 0.039 % + 80 µA 0.60 % + 160 µA
Reference calibrator
AC Current3 – Measure
(9 to 100) µA (0.1 to 1.0) mA (1 to 10) mA (10 to 100) mA (0.1 to 1.0) A (1 to 3) A
350 x 10-15 F 0.13 % 0.06 % 0.02 % 0.06 % 0.04 % 0.07 % 0.16 %
Open test standard reference capacitors
Thermocouple Simulation3 – Type E
(18 to 28) °C
0.07 °C
Thermocouple simulator
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 8 of 12
II. Electrical – RF/Microwave
Parameter/Range
Frequency CMC2, 6 ()
Comments
RF Absolute Power3 – Generate & Measure
-90 dBm -90 dBm -60 dBm (-70 to -60) dBm (-70 to -60) dBm (-70 to -60) dBm -55.0 dBm (-50 to -10) dBm (-50 to -10) dBm -5.0 dBm 0.0 dBm 0.0 dBm 5.0 dBm 10.0 dBm 10.0 dBm 10.0 dBm 10.0 dBm 15.0 dBm (20 to 30) dBm (20 to 30) dBm (4,5,6,7) dBm
(85 to 2005) MHz (2005 to 6600) MHZ (10 to 80) MHz (80 to 1800) MHz (1800 to 4800) MHz (4800 to 6000) MHz (10 to 6600) MHz (10 to 8400) MHz (8400 to 14000) MHz (10 to 6600) MHz (10 to 80) MHz (80 to 6600) MHz (10 to 6600) MHz (10 to 80) MHz (80 to 3800) MHz (3800 to 6000) MHz (6000 to 6600) MHz (10 to 6600) MHz (80 to 3800) MHz (3800 to 6000) MHz 10 and 100 MHz
Ratio measurement Power meter, power sensor, power splitter, signal generator Spectrum analyzer
RF Absolute Power3 – Measure
10 dBm 9.5 dBm 7.5 dBm 7 dBm (5 to -45) dBm (-45 to -50) dBm (5 to -50) dBm (5 to -45) dBm (-45 to -50) dBm (5 to -50) dBm 0 dBm (-55 to -60) dBm (-60 to -70) dBm (-70 to -80) dBm
(10 to 3000) MHz (800 and 4000) MHz (3200 to 8300) MHz 3300 MHz (0.5 to 10) MHz (0.5 to 10) MHz (10 to 200) MHz (200 to 2500) MHz (200 to 2500) MHz (2500 to 3300) MHz (3300 to 6600) MHz (0.5 to 3300) MHz (0.5 to 3000) MHz (0.5 to 2500) MHz
0.19 dB 0.12 dB 0.29 dB 0.20 dB 0.10 dB 0.16 dB 0.17 dB 0.10 dB 0.20 dB 0.20 dB 0.30 dB 1.0 dB 1.0 dB 1.0 dB
Spectrum analyzer, power meter, power sensor
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 9 of 12
Parameter/Range
Frequency CMC2, 6 ()
Comments
RF Absolute Power3 – Measure (cont)
(-80 to -90) dBm (-90 to -100) dBm
(0.5 to1500) MHz (0.5 to 500.1) MHz
1.0 dB 1.0 dB
Spectrum analyzer, power meter, power sensor
RF Relative Power3 – Measure
-36 dBm -36 dBm (0 to-30) dBm (0 and -30) dBm (0 and -30) dBm (0 and -30) dBm (-20 to -10) dBm -6 dBm -6 dBm
100 MHz (100 to 6000) MHz 80 MHz (80 to 3600) MHz (3600 to 6000) MHz (6000 to 6600) MHz (80 to 6000) MHz 100 MHz (100 to 6000) MHz
3.2 dB 2.4 dB 2.3 dB 0.90 dB 2.3 dB 2.5 dB 2.3 dB 1.8 dB 1.4 dB
(100 to 6000) MHz (10 to 200) MHz (200 to 8400) MHz (8400 to 14 000) MHz (85 to 3600) MHz (3600 to 6600) MHz (10 to 20) MHz (85 to 4000) MHz (4000 to 6000) MHz (6000 to 6600) MHz (85 to 3600) MHz (3600 to 6000) MHz (6000 to 6600) MHz (85 to 3600) MHz (3600 to 6000) MHz (6000 to 6600) MHz
Amplitude – DC Voltage: 1 M 50 Bandwidth Reference to 50 kHz Leveled Sine Wave Amplitude Reference to 50 kHz Input Impedance Capacitance Time Base Accuracy RMS noise
1 mV to 200 V 1 mV to 5 V (250 to 300) MHz 475.1 MHz 0.14 Vp-p 0.35 Vp-p 0.70 Vp-p 1.4 Vp-p 3.5 Vp-p 7.0 Vp-p 14 Vp-p 20 Vp-p 50 Ω 1 MΩ 15 pF 100 MHz (0 to 0.3) %
0.025 % + 25 µV 0.025 % + 25 µV 0.13 dB 0.53 dB 0.026 dB 0.019 dB 0.014 dB 0.011 dB 0.017 dB 0.019 dB 0.018 dB 0.013 dB 42 mΩ 0.90 kΩ 0.43 pF 0.28 ns/s 0.02 % of full scale
Oscilloscope calibrator Generator with sensor/splitter Generator/DMM as transfer standard
Oscilloscope calibrator
50 Ω termination
___________________________________________ 1 This laboratory offers commercial calibration service. 2 Calibration and Measurement Capability Uncertainty (CMC) 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 due to the behavior of the customer’s device and to influences from the circumstances of the specific calibration.
(A2LA Cert. No. 3634.01) Revised 04/20/2018 Page 12 of 12
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 Calibration and Measurement Capability Uncertainty (CMC) 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 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.
4 In the statement of CMC, the value is defined as the percentage of reading, unless otherwise noted. 5The contributions from the “best existing device” are not included in the CMC claim. 6 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. CMC’s 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.
For the calibrations to which this accreditation applies, please refer to the laboratory’s Calibration Scope of Accreditation.
Accredited Laboratory
A2LA has accredited
NI HUNGARY KFT Debrecen, HUNGARY
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 the requirements of ANSI/NCSL
Z540-1-1994 and 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 8 January 2009).
Presented this 15th day of November 2016. _______________________ President and CEO For the Accreditation Council Certificate Number 3634.01 Valid to October 31, 2018 Revised on September 12, 2017