IAS Accreditation Number CL-159 Accredited Entity Address P.O. Box 31862 Al Khobar 31952 Kingdom of Saudi Arabia Contact Name Arnold Arevalo Quality Manager Telephone +966-13-8571899 Effective Date of Scope April 24, 2016 Accreditation Standard ISO/IEC 17025:2005 CALIBRATION AREA RANGE & RESOLUTION TECHNIQUE, REFERENCE STANDARD, THERMAL Thermometers Dial Liquid-in Glass -20 to 300 C / 0.1 C -20 to 300 C / 0.01 C -20 to 300 C / 0.001 C 0.5 C 0.05 C 0.010 C SPRT, Indicator & Baths Infrared Thermometers 50 to 500 C 0.37 C Infrared Calibrator (Black-Body) Ovens & Furnaces (also at site) Temperature (Measure) Humidity (Measure) MECHANICAL Pressure Gauges and Indicators 25 to 300 C >300 to 1200 C -200 to 600 C 20 to 70 %RH @ 20 C 20 to 70 %RH @ 30 C 20 to 70 %RH @ 40 C -14.5 to 500 Psi 10 to 15,000 Psi 0.15 C 0.86 C 0.032 C 0.80 %Rh 0.95 %Rh 1.2 %Rh 0.085% IR 0.03% IR Thermocouples & Data Logger Thermocouples & Data Logger SPRT & Indicator Precision Hygrometer Pressure Calibrator Dead Weight Pressure Tester Scales and Balances (also at site) Weights 0 to 2 g / 0.001 mg >2 to 20 g / 0.001 mg >20 to 50 g / 0.01 mg >50 to 80 g / 0.01 mg >80 to 200 g / 0.1 mg >200 to 1000 g / 0.1 mg >1 to 10 kg / 0.01 g >10 to 20 kg / 0.01 g >20 to 50 kg / 0.01 g >50 to 1000 kg / 1 g 1 to 500 mg >0.5 to 10 g >10 to 50 g 0.018 mg 0.025 mg 0.061 mg 0.067 mg 0.20 mg 1.7 mg 0.016 g 0.063 g 0.16 g 20 g 0.013 mg 0.02 mg 0.06 mg Class E2 Standard Weights Class F1 Standard Weights Class M1 Weights Class E2 Weights and Balance International Accreditation Service, Inc. 3060 Saturn Street, Suite 100, Brea, California 92821 U.S.A Telephone +1 562-364-8201 IASInfo@iasonline.org www.iasonline.org Page 1 of 7
>50 to 200 g >200 to 1000 g >1 to 10 kg 20 kg 0.16 mg 1.4 mg 12.5 mg 0.12 g Class F1 Weights and Balance Torque Wrenches 0 to 3000 Nm 0.40 % Torque Tool Tester Force Compression/Tension (also at site) 0 to 50 kn / 1 N 20 to 100 kn / 1 N 0 to 2000 kn / 1 N 0.19 % 0.33 % 0.74% Load Cells, Indicator & Standard Weights Hardness Testers (also at site) Rockwell Scale Vickers Scale 0.3 HRC 2.7 HV Rockwell Hardness Test Block Vickers Hardness Test Block Liquid Flow Meters 0 to 50 Liters 0 to 50 Liters 0.1 % 0.015% Volumetric Prover (at site) Gravimetric (at lab) Volume (Pipette, Burette, etc.) DIMENSIONAL Calipers Dial & Vernier 1 to 10 µl Up to 200 ml >200 to 1000 ml 0 to 150 mm/0.02 mm 0 to 600 mm/0.02 mm 0 to 1000 mm/0.02 mm 0.015% 0.02% 0.028 % 0.012 mm 0.015 mm 0.020 mm Gravimetric Length Measuring Standard or Micrometers Analogue 0 to 150 mm/0.01 mm 0 to 600 mm/0.01 mm 0 to 25 mm/0.01 mm 0 to 100 mm/0.01 mm 0.008 mm 0.010 mm 0.010 mm 0.012 mm 0 to 25 mm/0.001 mm 0 to 100 mm/0.001 mm 0.002 mm 0.003 mm Extension & Setting Rods 0 to 25 mm 0 to 100 mm 0 to 600 mm 0 to 1000 mm 0.0015 mm 0.002 mm 0.006 mm 0.012 mm Length Measuring Standard & Electronic Height Gauge Indicators Dial 0 to 10 mm / 0.01 mm 0 to 100 mm / 0.01 mm 0 to 25 mm / 0.001 mm 0 to 100 mm / 0.001 mm 0.008 mm 0.015 mm 0.0015 mm 0.003 mm Length Measuring Standards Height Gauges Vernier & Dial 0 to 300 mm/0.02 0 to 1000 mm/0.02 0.015 0.025 Length Measuring Standards 0 to 600 mm/0.0001 mm 0 to 1000 mm/0.0001 6.5 µm 9 µm Length Measuring Standards CL-159 Page 2 of 7
Circular Section Gages (Plugs & Rings) CHEMICAL (also at site) ph Meters Conductivity Meters Viscosity Meter ELECTRICAL DC/LF DC Voltage Generate mm 0 to 100 mm >100 to 500 mm 0 to 14 ph / 0.01 ph 1 µs/cm to 200 ms/cm 50 to 5000 cp 0 to 329.9999 mv 0.33 to 3.299999V 3.3 to 32.99999 V 33 to 329.9999 V 330 to 1000.000 V 1.5 µm 8.6 µm 0.035 ph 1.0 % 1.5 % (ppm of output + µv) 20 + 1 11+ 2 12 + 20 18 + 150 18 + 1500 Electronic Height Measuring Instruments, Gauge Blocks and Length Measuring Standards ph Buffer Solution, NIST Cert. Standard Solution, NIST Cert. Standard Oil, NIST Cert. DC Voltage Measure 0 to 100 kv 0.10% HV Probe, Fluke 8845A AC Voltage Generate 1 to 32.999 mv 800 + 6 150 + 6 1000 + 6 3500 + 12 8000 + 50 33 mv to 3.29999 V 300 + 8 150 + 8 160 + 8 350 + 8 800 + 32 2000 + 70 3.3 to 32.9999 V 300 + 0.65 150 + 0.6 240 + 0.6 350 + 0.6 900 + 1.6 33 to 329.999 V (1 to 10 khz) 190 + 2 250 + 6 300 + 6 2000 + 50 330 to 1020 V 300 + 10 250 + 10 CL-159 Page 3 of 7
ELECTRICAL DC/LF DC Voltage Generate 300 + 10 0 to 329.9999 mv 0.33 to 3.299999V 3.3 to 32.99999 V 33 to 329.9999 V 330 to 1000.000 V (ppm of output + µv) 20 + 1 11+ 2 12 + 20 18 + 150 18 + 1500 DC Voltage Measure 0 to 100 kv 0.10% HV Probe, Fluke 8845A AC Voltage Generate 1 to 32.999 mv 800 + 6 150 + 6 1000 + 6 3500 + 12 8000 + 50 33 mv to 3.29999 V 300 + 8 150 + 8 160 + 8 350 + 8 800 + 32 2000 + 70 AC Voltage Generate (continued) 3.3 to 32.9999 V 300 + 0.65 150 + 0.6 240 + 0.6 350 + 0.6 900 + 1.6 33 to 329.999 V (1 to 10 khz) 190 + 2 250 + 6 300 + 6 2000 + 50 330 to 1020 V 300 + 10 250 + 10 300 + 10 AC Voltage Measure 0 to 100 kv, 60 Hz 0.25 % HV Probe, Fluke 8845A DC Current Generate (ppm of output + µa) 0 to 329.999 µa 0.33 to 3.29999 ma 3.3 to 32.9999 ma 33 to 329.999 ma 0.33 to 1.09999 A 1.1 to 2.99999 A 150 + 0.02 100 + 0.05 100 + 0.25 100 + 2.5 200 + 40 380 + 40 CL-159 Page 4 of 7
3 to 10.9999 A 11 to 20.5000 A 500 + 500 1000 + 750 AC Current Generate 0 to 1000 A 0 to 329.99 μa 0.6% + 0.04 A 0.2 + 0.1 0.15 + 0.1 0.125 + 0.1 0.3 + 0.15 0.8 + 0.2 1.6 + 0.4 0.33 to 3.2999 ma 0.2 + 0.15 0.125 + 0.15 0.1 + 0.15 0.2 + 0.2 0.5 + 0.3 1.0 + 0.6 AC Current Generate (continued) 3.3 to 32.999 ma 0.18 + 2 0.09 + 2 0.04 + 2 0.08 + 2 0.2 + 3 0.4 + 4 0.33 to 1.09999 A 0.18 + 100 0.05 + 100 0.6 + 1000 2.5 + 5000 1.1 to 2.99999 A 0.18 + 100 0.06 + 100 0.6 + 1000 2.5 + 5000 3 to 10.9999 A (45 to 100 Hz) (100 to 1 khz) 0.06 + 2000 0.10 + 2000 3.0 + 2000 11 to 20.5 A (45 to 100 Hz) (100 to 1 khz) 0 to 1000 A, 60 Hz 0.12 + 5000 0.15 + 5000 3.0 + 5000 0.62 % + 0.25 A and 50 Turns Coil 33 to 329.99 ma CL-159 Page 5 of 7
0.18 + 20 0.09 + 20 0.04 + 20 0.10 + 50 0.2 + 100 0.4 + 200 Resistance Generate/Measure 33 to 329.99 ma 0 to 11 Ω >11 to 33 Ω >33 to 110 Ω >110 Ω to 1.1 kω >1.1 to 11 kω >11 to 110 kω >110 kω to 1.1 MΩ >1.1 to 3.3 MΩ >3.3 to 11 MΩ >11 to 33 MΩ >33 to 110 MΩ >110 to 330 MΩ >330 to 1100 MΩ 0.18 + 20 0.09 + 20 0.04 + 20 0.10 + 50 0.2 + 100 0.4 + 200 0.004% + 1 mω 0.003% + 1.5 mω 0.0028% + 1.4 mω 0.0028% + 2 mω 0.0028% + 0.02 Ω 0.0028% + 0.2 Ω 0.0032% + 2 Ω 0.006% + 30 Ω 0.013% + 50 Ω 0.025% + 2.5kΩ 0.05% + 3 kω 0.3% + 0.1 MΩ 1.5% + 0.5 MΩ, Fluke 8845A Capacitance - Generate Thermocouples Simulation Generate/Measure 0.19 to 11 nf >11 to 110 nf >110 to 330 nf >0.33 to 1.1 μf >1.1 to 3.3 μf >3.3 to 11 μf >11 to 33 μf >33 to 110 μf >110 to 330 μf >0.33 to 1.1 mf >1.1 to 3.3 mf Type K, -200 to 1372 C Type J, -210 to 1200 C Type T, -250 to 400 C Type R, 0 to 1767 C 0.5% + 0.01 nf 0.25% + 0.1 nf 0.25% + 0.3 nf 0.25% + 1 nf 0.25% + 3 nf 0.25% + 10 nf 0.4% + 30 nf 0.45% + 100 nf 0.45% + 300 nf 0.45% + 1 µf 0.45% + 3 µf 0.4 C 0.27 C 0.74 C 0.70 C RTD Simulation Generate/Measure -200 to 800 C 0.23 C / Fluke 8845A Rotational Speed (also 0 to 99999 RPM / 0.1 0.01 % & at site) RPM Tachometer Timer / Stop Watch Up to 24 Hours / 0.001 0.026 sec / Hr, Universal CL-159 Page 6 of 7
(also at site) sec Counter & Stop Watch 1 Calibration and Measurement Capability 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 of nearly ideal measuring instruments. Calibration and Measurement Capabilities are expressed as uncertainties at approximately the 95% level of confidence, usually using a coverage factor of k=2. The measurement uncertainty of a specific calibration performed by the laboratory may be greater than the least uncertainty due to the behavior of the customer s device, to the environment (if the calibration is performed in the field), and to influences from the circumstances of the specific calibration. NOTE: Calibration parameters are performed primarily on-site at customer locations. The uncertainty of scale/balance calibration is highly dependent on local conditions, such as scale resolution and sensitivity, scale cleanliness, local gravity, temperature and humidity, dust, vibration, etc.; therefore, any statement of uncertainty is misleading. The class of the best weights used by the laboratory is shown in the Technique column. Use of weights in combination, whether in the same class or different classes, will increase measurement uncertainty resulting from the additive effect of weight tolerances, as defined in ASTM E 617. CL-159 Page 7 of 7