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/ |
---|
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 |
---|