Calibration and Measurement Potential

SASO carried the responsibility of establishing the " National Measurement and Calibration Center" to support the industry and scientific research, and to protect both the consumer and the merchant through the measurement accuracy. The center is now provided with basic standards and calibration potentials which are supported with specialized scientific staff that enable the center to cover the required needs in some of the top-priority calibration fields. At the time of establishing the center, SASO was concerned with providing the required environmental conditions regarding temperature and humidity and preventing dust, vibrations, etc., which are considered important to preserve the consistency and redundancy of high-precision measurements.

At the present time, the center is capable of providing its services to governmental sectors as well as industrial and commercial institutions in the Kingdom with the highest levels of accuracy.

NMCC/SASO CMC

Measured Quantity Instrument or Gauge	Range	Measurement Conditions	Calibration and Measurement Capability, CMCs	Explanations (Traceability)
Time and Frequency Lab.
Time Interval Measurement	0.5 ns – 1010 s		100 ps	SASO
Time Interval Measurement	T: 0.5 ns – 1010 s		500 ps	SASO
Time Interval Measurement	TI: 5 ps – 100 ns		(5 ps + 1x10-4 x TI) s	SASO
Frequency Generation and Measurement	f: 0.1 Hz – 200 MHz		1x10-11 x f Hz	SASO
Frequency Generation and Measurement	f: 200MHz – 67 GHz		(0.6 + 4x10-12 x f) Hz	SASO
Time Measurement	1 s - +1 s (Local Clock vs. UTC(SASO)) -1 s - +1 s (Local Clock vs. UTC) -1 s - +1 s (Remote Clock vs. UTC(SASO)) -1 s - +1 s (Remote Clock vs. UTC)		5 ns 20 ns 40 ns 50 ns	SASO
Pulse parameter	Rise time , fall time, Pulse width (15 ps to 1 us)		(5 ps + 0.1% of reading) s	SASO
Amplitude Measurement Range	0 dBm to +30 dBm (50 MHz < fc < 50 GHz) -100 dBm to 0 dBm (50 MHz < fc < 50 GHz)		0.45 dB 0.30 dB + 0.005 dB / 10 dB	SASO
Modulation Parameter Measurement (Amplitude Modulation, AM)	AM (%5 - %99) (50 Hz to 10 kHz, 250 kHz < fc < 10 MHz ), AM (%20 - %99) (50 Hz to 100 kHz, 10 MHz < fc < 30 GHz ), AM (%20 - %99) (50 Hz to 100 kHz, 30 GHz < fc < 50 GHz )		0.75% of reading 2.0% of reading 6% of reading	SASO
Modulation Parameter Measurement (Frequency)	FM (20 Hz to 10 kHz, 250 kHz < fc < 10 MHz )		1.5% of reading 3.8% of reading	SASO
Modulation, FM)	FM (50 Hz to 200 kHz, 10 MHz < fc < 30 GHz), FM (50 Hz to 200 kHz, 30 GHz < fc < 50 GHz		8.5% of reading
RF Microwave lab.
Modulation Parameter Measurement (Phase Modulation, PM)	PM (> 1.5 rad) (200 Hz to 20 kHz, 250 kHz < fc < 30GHz ), PM (> 2.5 rad) (200 Hz to 20 kHz, 250 kHz < fc < 30GHz ),		3% of reading 3% of reading	SASO
RF Power	0.01µW – 100 mW	Freq: 100 kHz – 50 GHz Connector: type N, 3.5 mm, 2.4 mm	9 to 60 mW/W	UME-Turkey
Calibration Factor	0.8000 – 1.0000	Freq: 100 kHz – 50 GHz Power: 1 mW Connector: type N, 3.5 mm, 2.4 mm	7 to 50 mW/W	UME-Turkey
Reflection Coefficient	-1 – +1	Freq: 9 kHz – 50 GHz Connector: type N, 3.5 mm, 2.4 mm	0.005 to 0.035	UME-Turkey VSL-Netherlands
	Acoustic lab.
Transmission Coefficient	-1 – +1	Freq: 9 kHz – 50 GHz Connector: type N, 3.5 mm, 2.4 mm	0.0002 to 0.0015	UME and VSL-Netherlands
1" Laboratory Standard Microphone	2 Hz - 10 kHz	2 Hz - 10 kHz	2 Hz - 10 kHz	SASO
1/2" Laboratory Standard Microphone	2 Hz - 25 kHz	2 Hz - 25 kHz	2 Hz - 25 kHz	SASO
Condenser Microphone	20 Hz - 50 kHz	20 Hz - 50 kHz	20 Hz - 50 kHz	SASO
Sound Calibrator	250 Hz or 1 kHz, 94 dB, 104 dB, 114 dB, 124 dB	SASO
Multifunction Acoustical Calibrator	31,5 Hz - 16 kHz, 94 dB, 104 dB, 114 dB	SASO
Sound Level Meter	IEC 61672-3	SASO
Noise Dose Meter	IEC 61652	SASO
Audiometer	125 Hz - 8 kHz	SASO
Sound Pressure Level Measurement	20 Hz - 20 kHz	SASO
Vibration lab.
Laboratory Standard Accelerometer	5 Hz - 10 kHz Sensor with mass up to 200 gram Nominal at 50 m/s2	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Vibration Measuring Chain	5 Hz - 10 kHz Sensor with mass up to 200 gram Nominal at 50 m/s2	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Accelerometer	5 Hz - 10 kHz Sensor with mass up to 200 gram Nominal at 50 m/s2	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Vibration Exciter	5 Hz - 10 kHz Level and frequency depend on DUT	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Vibration Meter	5 Hz - 10 kHz Level and frequency depend on DUT	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Conditioning Amplifier	5 Hz - 10 kHz	5 Hz to 10 kHz	5 Hz to 10 kHz	SASO
Vibration Measurement	1 Hz - 10 kHz	SASO
Length Measurements Lab.
Frequency stabilized laser: vacuum wavelength	633 nm	0.04 fm	CCL
Frequency stabilized laser: optical frequency	474 THz	20 kHz	CCL
Short gauge block by interferometry: Central Length	0.5-100 mm	Vertical	Q(30;0.28L) nm L in mm	SASO-NMCC
Long gauge block by interferometry: Central Length	125-1000 mm	Horizental	Q (49;0.29L) nm L in mm	SASO-NMCC
Gauge Block Comparator: Error of indicated displacement	0.5 – 100 mm	30 nm	UME Turkey
Short gauge block by mechanical comparison: Central Length	0.5 – 100 mm	Vertical	Q(50;0.7L) nm , (K=2)	SASO-NMCC
Long gauge block by mechanical comparison: Central Length	125-1000 mm	Horizental	Q (75;0.4L) nm L in mm	SASO-NMCC
Step gauge: face spacing	700 mm	Q(0.5;0.0012L) μm ,L: mm , (K=2)	SASO-NMCC
steel tape, Ruler : line spacing	0-5000 mm	Q(80;4.1L) μm , (K=2)	SASO-NMCC
External cylinder (plug): diameter	5 – 300 mm	Q(0.3;0.0004L) μm, (K=2)	SASO-NMCC
External cylinder (pin or wire): diameter	0.1 – 5 mm	Q(0.3;0.0004L) μm, (K=2)	SASO-NMCC
Internal cylinder (ring): diameter	4 – 350 mm	Q(0.4;0,004L) μm, (K=2)	METAS , Switzerland
External cylinder (plug): Roundness	0.01 – 300 μm	Q(42; 22 Ro) nm, (K=2)	UME Turkey
Internal cylinder (ring): Roundness	0.01 – 300 μm	Q(42; 22 Ro) nm, (K=2)	UME Turkey
Sphere or hemisphere: Roundness	0.01 – 300 μm	Q(42; 22 Ro) nm, (K=2)	UME Turkey
Cylindrical Straightness Standard: Straightness	0.01 – 300 μm	Q(100; 22 So) nm, (K=2)	UME Turkey
Thread plug : pitch diameter	2-70 mm	±2 μm , (K=2)	SASO-NMCC
Thread ring: pitch diameter	3-70mm	±2.5 μm , (K=2)	METAS, Switzerland
depth standard(groove)	0.01 - 50 μm	Q(33; 13Pt) nm , (K=2)	Germany PTB
Roughness standard	0.01 - 50 μm	Q(59; 17Rz) nm , (K=2)	UME Turkey
Surface plate: Flatness	0 -200 μm	Q(0.7 ; 2 L) μm , (K=2)	UME Turkey
Electronic level: Error of indicated inclination angle	± 1000 arc	± 0.4 arc	UME Turkey
Angle Block : Angle	1 arc – 180 Degree	± 0.6 arc	UME Turkey
Thermal Measurements Lab.
Fixed points	234.3156 K (-38.8344°C) 273.16 K 0.01°C 302.9146 K (29.7646 °C) 505.078 K (231.928 °C) 692.677 K (419.527 °C) 933.473 K (660.323 °C) 1234.93 K (961.78 °C)	0.5 mK 0.2 mK 0.5 mK 1 mK 1.5 mK 3.5 mK 5 mK	Comparison of fixed points	UME Turkey
Standard Platinum Resistance Thermometer (SPRTs)	83.8058 K (-189.3442°C ) 234.3156 K (-38.8344°C) 273.16 K 0.01 °C 302.9146 K (29.7646 °C) 505.078 K (231.928 °C ) 692.677 K (419.527 °C) 933.473 K (660.323 °C) 1234.93 K (961.78 °C)	1 mK 0.8 mK 0.5 mK 0.8 mK 1.5 mK 2 mK 8 mK 10 mK	By ITS-90 Fixed Point Cells, Quartz sheath for temperature above Zn. Minimum sheath length 450 mm	SASO-NMCC
Semi-Standard Platinum ResistanceThermometer or Platinum Resistance Thermometer	83.8058 K (-189.3442°C ) 234.3156 K (-38.8344°C) 273.16 K 0.01 °C 302.9146 K (29.7646 °C) 505.078 K (231.928 °C ) 692.677 K (419.527 °C) 933.473 K (660.323 °C) 1234.93 K (961.78 °C)	1 mK 0.8 mK 0.5 mK 0.8 mK 1.5 mK 2 mK 8 mK 10 mK	By ITS-90 Fixed Point Cells, Quartz sheath for temperature above Zn. Minimum sheath length 450 mm	SASO-NMCC
Standard Platinum Resistance Thermometer (SPRTs) Industrial Platinum ResistanceThermometers (IPRTs)	-196 °C -80°C to -60°C >-60°C to -40°C - 40 °C to 0 °C > 0 °C to 50 °C > 50 °C to 250 °C > 250 °C to 420 °C > 420 °C to 550 °C >550°C to 650°C	0.15 K 40 mK 10 mK 10 mK 10 mK 20 mK 30 mK 50 mK 50 mK	Calibration by comparison boiling point of liquid nitrogen liquid baths (Alcohol, water, oil and salt baths) and/or 3- zone furnace	SASO-NMCC
Noble metal Thermocouples (Type S, Type R, Type B, Au/Pt)	231.928 °C 419.527 °C 660.323 °C 961.78 °C	0.1 K 0.1 K 0.2 K 0.2 K	By ITS-90 Fixed Point Cells Minimum sheath length 500 mm	SASO-NMCC
Thermocouples	-80 °C — 250 °C 250 °C — 450 °C 450 °C — 650 °C 650 °C — 950 °C 950 °C — 1200 °C	0.1 K 0.2 K 0.2 K 1.0 K 1.0 K	Calibration by comparison liquid baths (Alcohol, water, oil and salt baths) and/or 3- zone furnace	SASO-NMCC
Digital Thermometer (Temperature sensors with display unit) (Resolution < 0.01°C)	-80 °C — 0 °C 0 °C — 85 °C 85 °C — 250 °C 250 °C — 420 °C 420 °C — 550 °C	15 mK 10 mK 10 mK 10 mK 15 mK 15 mK	Calibration by comparison liquid baths (Alcohol, water, oil and salt baths) and/or 3- zone furnace	SASO-NMCC
Digital Thermometer (Temperature sensors with display unit) (Resolution > 0.1oC)	-80 °C — -40 °C -40 °C — 550 °C	0.1 K 0.1 K	Calibration by comparison liquid baths (Alcohol, water, oil and salt baths) and/or 3- zone furnace	SASO-NMCC
Liquid-in-Glass Thermometer	-80 °C — 0 °C 0 °C — 85 °C 85 °C — 250 °C 250 °C — 420 °C 420 °C — 660 °C	15 mK 20 mK 50 mK 50 mK 1.5 K	Calibration by comparison liquid baths (Alcohol, water, oil and salt baths)	SASO-NMCC
Surface Thermometer	25 °C 50 °C 100 °C 150 °C 200 °C 250 °C	2 K	Calibration by comparison	SASO-NMCC
Calibration of Block Calibrators (Dry-well block calibrators)	-40 °C —200 °C 200 °C —450 °C 450 °C —650 °C 650 °C —1000 °C	0.1 K 0.2 K 0.5 K 0.5 K	Euramet cg-13	SASO-NMCC
Calibration of Temperature-Controlled Volumes(Oven and incubature)	-40 °C —100 °C 100 °C —200 °C	0.5 K 0.5 K	Euramet cg-20, EN 60068-3-5, EN60068-3-11	SASO-NMCC
Relative Humidity	10 %rh – 50 %rh / 0.0 °C – 22.9 °C 51 %rh – 95 %rh / 0.0 °C – 22.9 °C 10 %rh – 30 %rh / 23.0 °C – 24.0 °C 31 %rh – 50 %rh / 23.0 °C – 24.0 °C 51 % rh – 70 %rh / 23.0 °C – 24.0 °C 51 % rh – 70 %rh / 23.0 °C – 24.0 °C 71 %rh – 95 %rh / 23.0 °C – 24.0 °C 10 %rh – 50 %rh / 24.1 °C – 70.0 °C 51 %rh – 95 %rh / 24.1 °C – 70.0 °C	1.50 %rh 2.00 %rh 0.60 %rh 0.90 %rh 1.20 %rh 1.20 %rh 1.50 %rh 1.90 %rh 2.90 %rh	The calibration by comparison of the relative humidity sensors of Thermo-Hygrometers with Dew-Point Hygrometer	SASO-NMCC
Air temperature sensor	0 °C –24 °C / 10 %rh – 95 %rh 24.1 °C – 70.0 °C / 10 %rh – 95 %rh	0.19 °C 0.34 °C	The calibration by comparison of the air temperature sensor with the reference thermometer	SASO-NMCC
Variable Temperature Blackbody Radiation Sources	-20 ºC to < 15 ºC 15 ºC to 500 ºC 400 ºC to 600 ºC	0.2 K to 0.4 K 0.2 K to 2.1 K 1.5 K to 1.8 K	Comparison with reference blackbodies through infrared thermometer spectral wavelength 8 µm to 14 µm	UME Turkey
Variable Temperature Blackbody Radiation Sources	0 ºC to < 15 ºC 15 ºC to 500ºC	0.4 K 0.4 K to 2.1 K	Comparison with reference blackbodies through infrared thermometer spectral wavelength 8 µm to 13 µm	UME Turkey
Variable Temperature Blackbody Radiation Sources	150 ºC to 1 100 ºC	0.7 K to 1.6 K	Comparison with 1.6µ m standard radiation thermometer	UME Turkey
Variable Temperature Blackbody Radiation Sources	420 ºC to 1 600 ºC	0.8 K to 2.0 K	Comparison with 650 nm standard radiation thermometer	UME Turkey
Radiation Thermometer/Infrared Thermometer/Thermal imaging Camera	-20 °C to 15 °C	0.15 K to 0.30 K	Calibration by comparison	UME Turkey
Radiation Thermometer/Infrared Thermometer/Thermal imaging Camera	>15 °C to < 1100 °C	0.15 K to 5.0 K	Calibration by comparison	UME Turkey
Optics Measurements Lab.
Responsivity Spectral, Power Broadband Detectors	1.10-04 A/W ≤ R ≤ 1.5 A/W (Wavelength: 250 nm to 1800 nm)	250 nm to 350 nm 350 nm to 850 nm 850 nm to 1100 nm 1100 nm to 1800 nm	1.45 % 1.03 % 1.39 % 1.86 %	Lamp-based monochromatic source (CIE Pubs No. 53 and 64)/ UME-Turkey
Responsivity Laser, Power	Power: 10-05 W to 1 W	Wavelength: 488 nm, 515 nm, 532 nm, 633 nm, 1064 nm	1.32 % to 2.26 %	CW laser sources/ UME-Turkey
Reflectance, Diffuse, Spectral (Spectrally-neutral Materials)	10-03 to 1.0	Wavelength: 250 nm to 1800 nm Bandwidth: 2 nm to 13 nm	0.3 % to 1.0 %	Lamp based monochromatic source and integrating sphere with reference detectors (ASTM E 1175, ASTM E 903 & CIE Pub No. 130)/ UME-Turkey
Reflectance, Regular, Spectral	10-03 to 1.0	Wavelength: 250 nm to 1800 nm	0.01 % to 1.0 %	Lamp based monochromatic source and integrating sphere with reference detectors/ UME-Turkey
Transmittance, Regular, Spectral	10-03 to 1.0	Wavelength: 250 nm to 1800 nm	0.01 % to 1.0 %	Lamp based monochromatic source and integrating sphere with reference detectors/ UME-Turkey
Transmittance, Total, Spectral (Spectrally-neutral Materials)	10-03 to 1.0	Wavelength: 250 nm to 1800 nm Bandwidth: 2 nm to 13 nm	0.3 % to 1.8 %	Lamp based monochromatic source and integrating sphere with reference detectors (NIST SP 260 – 135, ASTM - D 1003 & CIE Pub No. 130)/ UME-Turkey
Optical density (OD)	0 to 3	Wavelength: 250 nm to 1800 nm	0.01 % to 0.17 %	Lamp based monochromatic source and integrating sphere with reference detectors/ UME-Turkey
Opacity	0 to 1	0.01 % to 1.8 %	Lamp based monochromatic source and integrating sphere with reference detectors/ UME-Turkey
Luminous Intensity	1 cd to 1004 cd	CCT: 2856 K	1 %	Tungsten lamps/photometric bench/reference photometer/ UME-Turkey
Illuminance	0.1 lx to 5000 lx	CCT: 2856 K	1 %	Tungsten lamps/photometric bench/reference photometer (ISO/CIE 19476:2014 & CIE Pub No. 69)/ UME-Turkey
Luminance	15 cd/m2 to 2800 cd/m2	CCT: 2856 K	1.6 %	Tungsten-based source/ UME-Turkey
Luminous responsivity	Flux: 0.1 lx to 5000 lx	CCT: 2856 K	2 %	Comparison at tungsten lamp, photometric bench/ UME-Turkey
Luminous Flux, Tungsten-based lamps	5 lm to 5000 lm	CCT: 2856 K	1.7 %	Tungsten lamp/integrating sphere (CIE Pub No. "84")/ UME-Turkey
Spectrophotometer UV-VIS-NIR	0.04 to 2.0 AU	SBW < 5 nm	1 nm 1% Abs.	ASTM E275, E925, E958, E168, E169 & E387
Colorimeter Color coordinates and color difference	X, Y and Z Different ranges	Illuminant A	2%	ASTM E308 & E1347
Gloss meter	0 to 100 GU	20o 60o 85o	0.64 GU 0.45 GU 0.44 GU	ASTM D523 & D2457
Mass Lab.
Mass standard	1 mg – 100 mg	Comparison in air	0.4 μg	SASO National kg
	0.1 g – 1 g	Comparison in air	0.4 μg to 1 μg	SASO National kg
	1 g – 10 g	Comparison in air	1 μg to 2 μg	SASO National kg
	10 g – 100 g	Comparison in air	2 μg to 4 μg	SASO National kg
	0.1 kg – 1 kg	Comparison in air	4 μg to 28 μg	SASO National kg
	1 kg – 10 kg	Comparison in air	28 μg to 0.5 mg	SASO National kg
	10 kg – 50 kg	Comparison in air	0.5 mg to 2 mg	SASO National kg
Weighing instrument Calibration of no Automatic instruments	to 600 g	Comparison in air	1.7×10-6	SASO standard
	˃600 g to 60 kg	Comparison in air	3×10-6	SASO standard
	˃60 kg to 600 kg	Comparison in air	1×10-5	SASO standard
	˃600 kg to 2000 kg	Comparison in air	3×10-5	SASO standard
Pressure Lab.
Absolute Pressure (pneumatic)	5.0´104 Pa – 3.5´105 Pa 3.5´105 Pa - 7´106 Pa	pneumatic	(0.5+1E-05 P) (1.1E-5 P)	PTB
Relative pressure (pneumatic)	1.5´103 Pa – 5´103 Pa 5´104 Pa – 3.5´105 Pa 3.5´105 Pa - 7 ´106 Pa 7 ´106 Pa - 2 ´107 Pa	pneumatic	(0.04+1.5E-4 P) (0.5+1E-05 P) (1.1E-5 P) (1000+5E-5 P)	PTB
Negative pressure (pneumatic)	1.5´103 Pa - 1´105 Pa	Pneumatic	(0.04+1.5E-4 P)	PTB
Relative pressure (hydraulic)	2 ´105 Pa - 1 ´108 Pa 1 ´108 Pa - 2 ´108 Pa	hydraulic	(600+2.1E-5 P) (1960+3.2E-5 P)	PTB
Volume Lab.
Micropipette	1 μL < V ≤ 10 μL 11 μL < V ≤ 100 μL 200 μL 500 μL 1000 μL 2 mL 5 mL 10 mL	In air	0.10 μL 0.20 μL 0.30 μL 0.60 μL 1.4 μL 2.5 μL 6 μL 8 μL	SASO
Metal Volumetric Instruments	(2-200) L	In air	0.01 % for 1 L	SASO
Flask	1 mL < V ≤ 10 mL 25 mL 50 mL 100 mL 200 mL 250 mL 500 mL 1000 mL 2000 mL 5000 mL	In air	0.01 % - 0.5 %	SASO
Measuring Cylinder	5 mL 10 mL 25 mL 50 mL 100 mL 250 mL 500 mL 1000 mL 2000 mL	In air	0.02 mL 0.04 mL 0.11 mL 0.22 mL 0.23 mL 0.43 mL 1.0 mL 2.0 mL 4.0 mL	SASO
Pyknometer	10 mL 25 mL 50 mL 100 mL	In air	10 μL 10 μL 10 μL 10 μL	SASO
Burettes	1 mL 2 mL 5 mL 10 mL 25 mL 50 mL 100 mL	In air	5 μL 10 μL 15 μL 25 μL 25 μL 35 μL 45 μL	SASO
Single-volume Pipettes	0.5 mL 1 mL 2 mL 5 mL 10 mL 20 mL 25 mL 50 mL 100 mL	In air	4 μL 5 μL 6 μL 9 μL 12 μL 15 μL 18 μL 25 μL 35 μL	SASO
Graduate-volume Pipettes	0.5 mL 1 mL 2 mL 5 mL 10 mL 20 mL 25 mL	In air	2.5 μL 5 μL 10 μL 20 μL 20 μL 30 μL 40 μL	SASO
Density Lab.
Density Hydrometer	(2000–600) kg/m3	In Bath and special Liquid	0.2 – 1.0 %	SASO
Density Determination of the Mass Standards	1 g to 50 kg	In Water	0.3 kg m-3 for 1 kg	SASO
Viscosity Lab.
Capillary Viscometer Calibration	0,001 mm²/s² – 100000 mm²/s²	In water Bath	0.1ـــ 0.9%	UME
ROTATION	0,5 – 100 000 mPa·s	Calibration Liquid	0.1 %	SASO
FLOW CUP	1,6 – 2000 mm2/s	Calibration Liquid	0.2 – 3.0 %	SASO
Torque Lab.
Reference torque wrenches	1 N.m - 5 kN.m	cw/ccw reference method	0.002 %	PTB
Torque measuring devices	1 N.m - 5 kN.m	cw/ccw reference method	0.002 %	PTB
Torque tools calibration equipment	1 N.m - 5 kN.m	cw/ccw reference method	0.002 %	PTB
Force Lab.
Material testing machines using load cells	1 kN – 1000 kN		% 0.1 ±	SASO - NMCC
Concrete testing machines using load cells	1 kN – 3000 kN		% 0.1 ±	PTB
Dead Weight Force Standard Machine	0.02 kN – 1.1 kN		% 0.003 ±	UME
	0.2 kN - 11 kN		% 0.003 ±	UME
	2 kN - 110 kN		% 0.003 ±	UME
UniversalForce Calibrating Machine	5 kN – 200 kN		% 0.016 ±	UME
	20 kN – 1000 kN		% 0.022 ±	UME
	200 kN – 5000 kN		% 0.028 ±	PTB
Hardness Lab.
Hardness Reference Blocks Rockwell, Brinell, Vickers Hardness Reference Block Calibration	HRA HRBW HRC HR-N HR-TW HV HBW		0,26 HRA 0,45HRB 0,47 HRC 0,44 HR-N 0,45 HR-TW 1,0 % 1,0 %	SASO - NMCC
Angle Rockwell and Vickers Hardness Diamond Indenters Calibration	119⁰ ≤ α ≤ 121⁰ 135⁰ ≤ α ≤ 137⁰		0,05⁰	INRiM
Tilt Angle Rockwell and Vickers Hardness Diamond Indenters Calibration	0⁰ ≤ α ≤1⁰		0,05⁰	INRiM
Radius Rockwell Hardness Diamond Indenters Calibration	0,180 mm ≤ R ≤ 0,220mm		0,002 mm	INRiM
Straightness Rockwell Hardness Diamond Indenters Calibration	0 mm ≤ S ≤ 0,002 mm		0,0003 mm	INRiM
Squareness Vickers Hardness Diamond Indenters Calibration	0⁰ ≤ α ≤1⁰		0,1⁰	INRiM
Length Vickers Hardness Diamond Indenters Calibration	0 mm ≤ L ≤ 0,005 mm		0.0005 mm	INRiM
Depth measurement of Rockwell hardness testing machines	0 mm ≤ L ≤ 1 mm
Indentation measurement system for Brinell and Vickers	0,020 mm ≤ L ≤ 6 mm
Force Hardness Testing Machines Calibration/Verification	0,09807 N ≤ F ≤ 30 kN		0,011 %	SASO - NMCC
Hardness Testing Machines	HRA HRBW HRC HRN HRTW HV HBW		0,4 HRA 0,6 HRB 0,4 HRC 0,6 HR-N 0,7 HR-TW 1,0 % 1,0 %	SASO - NMCC
Gravity Lab.
Gravity	Worldwide	20 °C to 30 °C	4.6 microgal	SASO
Voltage Lab.
DC Standard 10V	10V	23°C ±2	0.37 µV/V	UME
DC Standard 1.018V	1.018V	23°C ±2	0.76 µV/V	UME
Thermal Voltage Convertor	1 V-1000 V 10Hz-1MHz	23°C ±2	(3-30)µV/V	UME
Thermal Current Convertor	10mA-100A 10Hz-100kHz	23°C ±2	(4-90)µA/A	UME
DC Volt Calibrator	100mV-1000V	23°C ±2	(4-12)µV/V	SASO
AC Volt Calibrator	0.6mV-1000V 10Hz-1MHz	23°C ±2	(0.52-16)mV/V	SASO
DC Current Calibrator	±100 µA- ±1 A	23°C ±2	(0.43-0.14 mA/A)	SASO
AC Current Calibrator	100µA-1A 10Hz-10kHz	23°C ±2	(0.43-11)mA/A	SASO
Resistance Calibrator	1Ω-100MΩ	23°C ±2	(0.0071-0.12 mΩ/Ω)	SASO
DC Volt Multimeter	100mV-1000V	23°C ±2	(4-12)µV/V	UME
AC Volt Multimeter	100mV-1000V 20Hz-1MHz	23°C ±2	(0.05-2)mV/V)	UME
DC Current Multimeter	100µA-1A	23°C ±2	(0.041-0.1mA/A)	UME
AC Current Multimeter	100µA-1A 300Hz-10kHz	23°C ±2	(0.14-7.2)mA/A	UME
Resistance Multimeter	1Ω-100MΩ	23°C ±2	(0.007-0.1) mΩ/Ω	UME
Impedance Lab.
Fused-Silica Standard Capacitor	1-10-100 pF @50 Hz-20 kHz	23°C ±2 45±15 RH	1 µF/F – 80 µF/F	NPL
Standard Capacitor	(1-10-100 nF 1-10-100 uF) @50 Hz-20 kHz	23°C ±2	10 µF/F – 1700 µF/F	NPL
Standard AC Resistors	1 mΩ -100kΩ @0 Hz-100 kHz	23°C ±2	0.13 mΩ/Ω -0.35 mΩ/Ω	UME
Standard Inductors	0.1mH-10 H @100Hz-10 kHz	23°C ±2	80 mH/H- 320 mH/H	UME
Standard DC Resistor	1 mW-100 mW	23°C ±2	2 µW/W-10 µW/W	UME
	1 W- 10 kW	23°C ±2	0,16 µW/W-0,21 µW/W	UME
	100 kW -100 MW	23°C ±2	1,0 µW/W-11 µW/W	UME
	1 GW- 100 TW	23°C ±2	% 0,0017 -%0,090	UME
Power and Energy Lab.
Active Power: Single Phase (f<=400 Hz)	0 W – 2400 W	23°C ±2 45±15 RH	40 µW/(V·A)	UME
Reactive Power: Single Phase (f<=400 Hz)	0 var – 2400 var	23°C ±2	40 µvar/(V·A)	UME
Apparent Power: Single Phase (f<=400 Hz)	60 V·A – 2400 V·A	23°C ±2	40 µV·A/(V·A)	UME
Active Power: Three Phase Power Meter	0 W – 60000 W	23°C ±2	0.10 mW/(V·A)	DKD
Reactive Power: Three Phase Power Meter	0 var – 60000 var	23°C ±2	0.10 mvar/(V·A)	DKD
Active Energy: Three Phase Energy Meter	0.075 W·s – 6·106 W·s	23°C ±2	0.10mW /(V·A)	DKD
Reactive Energy: Three Phase Energy Meter	0.075 var·s – 6·106 var·s	23°C ±2	0.10 mvar /(V·A)	DKD
Harmonic Current: Harmonic measurements for current waveforms, steady state Harmonic Analyser, Harmonic Current Source	0.01 A – 10 A	23°C ±2	0.10 µA/A	UME
Harmonic Voltage: Harmonic measurements for voltage waveforms, steady state Harmonic Analyser, Harmonic Voltage Source	1 V – 300 V	23°C ±2	0.10 µV/V	UME
Flicker Severity (Pst): Square wave modulation Flicker Meter, Flicker Source	0.95 Pst – 1.05 Pst	23°C ±2	% 0.3	UME
AC High Current: Ratio Error Current Transformer (Conventional Type)	0 – 0.02	23°C ±2	100·10-6	UME
AC High Current: Phase Displacement Current Transformer (Conventional Type)	0 – 20 mrad	23°C ±2	0.1 mrad	UME
AC High Current: Ratio Error Current Sensors Non-Conventional Current Transformers with Analog Output	0 – 0.02	23°C ±2	400·10-6	UME
AC High Current: Phase Displacement Current Sensors Non-Conventional Current Transformers with Analog Output	0 – 20 mrad	23°C ±2	0.50 mrad	UME
AC High Voltage: Ratio Error Voltage Transformer (Conventional Type)	0 – 0.02	23°C ±2	150·10-6	UME
AC High Voltage: Phase Displacement Voltage Transformer (Conventional Type)	0 – 20 mrad	23°C ±2	0.15 mrad	UME
AC High Voltage: Ratio Error Voltage Sensors Non-Conventional Voltage Transformer with Analog Output	0 – 0.02	23°C ±2	400·10-6	UME
AC High Voltage: Phase Displacement Voltage Sensors Non-Conventional Voltage Transformer with Analog Output	0 – 20 mrad	23°C ±2	0.50 mrad	UME
High Voltage Impedance: Burden: Modulus Standard Burden for Instrument Transformer	0.01W - 10000W	23°C ±2	1 mW/W	UME
High Voltage Impedance: Burden: Argument Standard Burden for Instrument Transformer	-1.57 rad – 1.57 rad	23°C ±2	1 mrad	UME
AC High Current: Ratio: Ratio Error Current Transformer Bridge	0 – 0.02	23°C ±2	50·10-6	UME
AC High Current: Ratio: Ratio Error Current Transformer Bridge	0mrad - 20mrad	23°C ±2	50 µrad	UME
AC High Voltage: Ratio: Ratio Error Voltage Transformer Bridge	0 – 0.02	23°C ±2	50·10-6	UME
AC High Voltage: Ratio: Ratio Error Voltage Transformer Bridge	0mrad - 20mrad	23°C ±2	50 µrad	UME
Electromagnetic Lab.
Electric Field Probes	30 Hz-18GHz	23°C ±2 40±10 RH	1.4dB - 2.6dB	UME
Magnetic Field Probes	DC-1000MHz	23°C ±2 40±10 RH	1.1dB - 2.6dB	UME
Chemical Measurements Lab.
Co2 in N2	100-1000 cmol/mol	Detection is by TCD and FID	1.4 µmol/mol	Reference Gas Mixtures (CRMs) UME-Turkey
Nitrogen	1 – 5 cmol/mol		121 µmol/mol
Carbon dioxide	0.1 – 0.5 cmol/mol		149 µmol/mol
Hydrogen	1 – 5 cmol/mol		98 µmol/mol
Helium	0.1 – 0.5 cmol/mol		22 µmol/mol
Ethane	1 – 5 cmol/mol		173 µmol/mol
Propane	0.5 – 2 cmol/mol		76 µmol/mol
iso-Butane	0.1 – 0.5 cmol/mol		9 µmol/mol
n-Butane	0.1 – 0.5 cmol/mol		9 µmol/mol
iso-Pentane	0.01 – 0.1 cmol/mol		2 µmol/mol
n-Pentane	0.01 – 0.1 cmol/mol		2 µmol/mol
neo-Pentane	0.01 – 0.1 cmol/mol		3 µmol/mol
n-Hexane	0.01 – 0.1 cmol/mol		2 µmol/mol
Methane	80 - 96 µmol/mol	4545 µmol/mol
pH of primary buffer solutions	4	Measurements are performed by primary procedure based on Harned cell	0.0054±	Primary procedure compared with UME-Turkey
pH of primary buffer solutions	7	Measurements are performed by primary procedure based on Harned cell	0.0054±	Primary procedure compared with UME-Turkey
pH of primary buffer solutions	10	Measurements are performed by primary procedure based on Harned cell

Last modified 25 Nov 2019

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