Certificate of Accreditation

PERRY JOHNSON LABORATORY ACCREDITATION, INC. Certificate of Accreditation Perry Johnson Laboratory Accreditation, Inc. has assessed the Laboratory of: Instrumentación Analítica y Metrología S.A. de C.V Calle Aldama No 9, Col. Bulevares San Cristobal, Ecatepec, Estado de México, Mexico CP. 55020 (Hereinafter called the Organization) and hereby declares that Organization is accredited in accordance with the recognized International Standard: ISO/IEC 17025:2005 This accreditation demonstrates technical competence for a defined scope and the operation of a laboratory quality management system (as outlined by the joint ISO-ILAC-IAF Communiqué dated April 2017): Thermodynamic, Mechanical, Mass, Force and Weighing Devices, Time & Frequency and Electrical Calibration for Biomedical Equipment (As detailed in the supplement) Accreditation claims for such testing and/or calibration services shall only be made from addresses referenced within this certificate. This Accreditation is granted subject to the system rules governing the Accreditation referred to above, and the Organization hereby covenants with the Accreditation body s duty to observe and comply with the said rules. For PJLA: Initial Accreditation Date: Issue Date: Expiration Date May 06, 2010 February 12, 2019 February 28, 2021 Tracy Szerszen President/Operations Manager Perry Johnson Laboratory Accreditation, Inc. (PJLA) 755 W. Big Beaver, Suite 1325 Troy, Michigan 48084 Accreditation No.: Certificate No.: 64986 L19-66 The validity of this certificate is maintained through ongoing assessments based on a continuous accreditation cycle. The validity of this certificate should be confirmed through the PJLA website: www.pjlabs.com Page 1 of 6

Calle Aldama No. 9, Col. Bulevares San Cristobal Contact Name: Sergio Martin Galindo. Phone: 551-115-8934 Mechanical DEVICE SIZE AS Piston Pippette F 2 µl to 10 000 µl (39.63 x 10-3 + 6.1 x 10-4 V) µl PM-01.4 Analytical balance (Res.= 0.01 mg) Pressure Gages F 35 psi to 350 psi 0.65 psi PP-01.4 Pressure Transducer Fluke PV-350 Pressure Gage FO 10 Pa to 100 Pa 1 % of reading PP-01.4 Digital Pressure Gage Brand: Dwyer Model: Magnesense Flow Meter FO (Gas Flow) Mass, Force and Weighing Devices Analytical Balances O Scales O Weights - Class M1, M2 and M3 F 0.2 L/min to 20 L/min 1 % of reading PF-01.4 3 L/ min to 300 L/min 1 % of reading DEVICE SIZE AS FlowAnalyser PF-300 Brand: Imtmedical ag 10 g to 210 g (Res.= 0.1 mg) (26.12 x 10-2 + 2.8 x 10-3 Wt) mg PM-02.4 210 g to 2 kg (64.22 + 1 x 10-3 Wt) mg (Res.= 100 mg) 2 kg to 100 kg (3.871 6 + 1.17 x 10-2 Wt) g PM-02.4 (Res.= 5 g) Mass Set Class M1 1 g 0.11 mg PM-02.4 2 g 0.11 mg 5 g 0.16 mg 10 g 0.21 mg 20 g 0.26 mg 50 g 0.31 mg 100 g 0.52 mg Issue: 02/2019 This supplement is in conjunction with certificate #L19-66 Page 2 of 6

Mass, Force and Weighing Devices Weights - Class M1, M2 and M3 F 200 g 1.1 mg PM-02.4 500 g 2.2 mg 1 000 g 14 mg 2 000 g 25 mg 1 kg 5.1 mg 2 kg 10 mg Weights - Class F2 F 1 mg 0.02 mg PM-02.4 2 mg 0.02 mg 5 mg 0.02 mg 10 mg 0.026 mg 20 mg 0.03 mg 50 mg 0.04 mg 100 mg 0.051 mg 200 mg 0.062 mg 500 mg 0.082 mg 1 g 0.1 mg 2 g 0.12 mg 5 g 0.16 mg 10 g 0.2 mg 20 g 0.26 mg 50 g 0.31 mg 100 g 0.51 mg 200 g 1 mg Electrical Temperature Calibration, Indication and Control Equipment used with Thermocouple Type J F Temperature Calibration, Indication and Control Equipment used with Thermocouple Type K F -200 C to 1 200 C 0.33 C PE-01.4 Fluke 744 Electrical Simulation of Thermocouple Output -200 C to 1 200 C 0.33 C Issue: 02/2019 This supplement is in conjunction with certificate #L19-66 Page 3 of 6

Electrical Equipment to Output Resistance FO Equipment to Output DC Current FO Equipment to Output DC Voltage FO DC Voltage F 1 Ω to 110 Ω 7 mω PE-01.4 10 Ω to 110 Ω 15 mω Fluke 744 110 Ω to 1 kω 75 mω 1.1 kω to 11 kω 1.5 Ω 2 ma to 20 ma 1.5 µa 10 mv to 110 mv 1.2 mv 0.11 mv to 1.10 V 0.006 mv 1.5 V to 10 V 0.014 mv -200 mv to 200 mv 0.56 µv PE-01.4-2 V to 2 V 0.12 µv -1 kv to 1 kv 0.16 mv -20 V to 20 V 0.008 mv -200 V to 200 V 0.06 mv 1 Hz to 40 Hz 0 V to 200 V 21 mv 40 Hz to 56 Hz 0 V to 200 V 21 mv 56 Hz to 206 Hz 0 V to 200 V 21 mv 206 Hz to 1 khz 0 V to 200 V 21 mv 1 khz to 20 khz 0 V to 200 V 21 mv DC Current F -200 µa to 200 µa 2.7 na -2 ma to 2 ma 0.017 µa -20 ma to 20 ma 0.16 µa -200 ma to 200 ma 2.2 µa -2 A to 2 A 0.013 ma -30 A to 30 A 1.6 ma Electrical Simulation Tachometer F 60 rpm to 20 000 rpm 0.6 rpm PE-01.4 1 Hz to 40 Hz 0 A to 2 A 0.3 ma Issue: 02/2019 This supplement is in conjunction with certificate #L19-66 Page 4 of 6

Electrical 40 Hz to 56 Hz 0 A to 2 A 0.3 ma 56 Hz to 206 Hz 0 A to 2 A 0.3 ma 206 Hz to 1 khz 0 A to 2 A 0.3 ma 1 Hz to 40 Hz 0 A to 30 A 2.5 ma 40 Hz to 56 Hz 0 A to 30 A 2.5 ma 56 Hz to 206 Hz 0 A to 30 A 2.5 ma 206 Hz to 1 khz 0 A to 30 A 2.5 ma Electrical Resistence F 0 Ω to 100 Ω 0.5 mω 0 kω to 1 kω 1 mω 0 kω to 10 kω 0.6 Ω 0 kω to 100 kω 0.7 Ω 0 MΩ to 1 MΩ 0.009 kω 0 MΩ to 10 MΩ 0.11 kω Clamps Coils At the listed Turn at 56 Hz F 2 turns 0 A to 30 A 7 ma 10 turns 0 A to 30 A 7 ma 50 turns 0 A to 30 A 7 ma PE-01.4 PE-01.4 Workstation EA015 Thermodynamic DEVICE SIZE AS Humidity Meters F 30 % RH to 90 % RH 2 % RH PH-01.4 Vaisala,/ PMA humidity Climatic Chamber O 2 C to 160 C 0.3 C PC-04.1 Glass liquid Thermometers F Thermocouples Type J -30 C to 80 C 0.16 C PT-01.4 Precision Thermometer ISOTECH milli-k Issue: 02/2019 This supplement is in conjunction with certificate #L19-66 Page 5 of 6

Time and Frequency Velocity Meters & Centrifudges FO Rate of Rotation 50 rpm to 10 000 rpm 0.3 % of reading PF-01.4 Tachometer Shimpo DT-205L 1. The CMC (Calibration and Measurement Capability) stated for calibrations included on this scope of accreditation represents the smallest measurement uncertainty attainable by the laboratory when performing a more or less routine calibration of a nearly ideal device under nearly ideal conditions. It is typically expressed at a confidence level of 95 % using a coverage factor k (usually equal to 2). The actual measurement uncertainty associated with a specific calibration performed by the laboratory will typically be larger than the CMC for the same calibration since capability and performance of the device being calibrated and the conditions related to the calibration may reasonably be expected to deviate from ideal to some degree. 2. The laboratories range of calibration capability for all disciplines for which they are accredited is the interval from the smallest calibrated standard to the largest calibrated standard used in performing the calibration. The low end of this range must be an attainable value for which the laboratory has or has access to the standard referenced. Verification of an indicated value of zero in the absence of a standard is common practice in the procedure for many calibrations but by its definition it does not constitute calibration of zero capacity. 3. The presence of a superscript F means that the laboratory performs calibration of the indicated parameter at its fixed location. Example: Outside MicrometerF would mean that the laboratory performs this calibration at its fixed location. 4. The presence of a superscript O means that the laboratory performs calibration of the indicated parameter onsite at customer locations. Example: Outside MicrometerO would mean that the laboratory performs this calibration onsite at the customer s location. 5. The presence of a superscript FO means that the laboratory performs calibration of the indicated parameter both at its fixed location and onsite at customer locations. Example: Outside MicrometerFO would mean that the laboratory performs this calibration at its fixed location and onsite at customer locations. 6. Measurement uncertainties obtained for calibrations performed at customer sites can be expected to be larger than the measurement uncertainties obtained at the laboratories fixed location for similar calibrations. This is due to the effects of transportation of the standards and equipment and upon environmental conditions at the customer site which are typically not controlled as closely as at the laboratories fixed location. 7. The term Wt represents weight in pounds or grams (including SI multiple and submultiple units) appropriate to the uncertainty statement. 8. The term V represents Volume in liters (including SI multiple and submultiple units) appropriate to the uncertainty statement. Issue: 02/2019 This supplement is in conjunction with certificate #L19-66 Page 6 of 6