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JJG 119-2018 English PDF

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BASIC DATA
Standard ID JJG 119-2018 (JJG119-2018)
Description (Translated English) Laboratory pH Meters
Sector / Industry Metrology & Measurement Industry Standard
Word Count Estimation 26,249
Date of Issue 2018-12-25
Date of Implementation 2019-06-25
Older Standard (superseded by this standard) JJG 119-2005
Drafting Organization China Institute of Metrology, Guangxi Zhuang Autonomous Region Metrology and Testing Institute, Beijing Institute of Metrology and Measurement
Administrative Organization National Physical and Chemical Metrology Technical Committee
Regulation (derived from) State Administration of Markets, Announcement No.34 of 2018
Issuing agency(ies) State market supervision and administration

JJG 119-2018 JJG NATIONAL METEROLOGICAL VERIFICATION SPECIFICATION OF THE PEOPLE’S REPUBLIC OF CHINA Laboratory pH meters ISSUED ON: DECEMBER 25, 2018 IMPLEMENTED ON: JUNE 25, 2019 Issued by: State Administration for Market Regulation Table of Contents Introduction ... 4 1 Scope ... 6 2 Normative references ... 6 3 Overview ... 6 4 Metering performance requirements... 7 5 General technical requirements ... 8 5.1 Legal metrology management signs and marking inspection ... 8 5.2 Appearance and power-on inspection ... 8 5.3 Electrode inspection ... 8 6 Control of measuring instrument ... 8 6.1 Verification conditions ... 8 6.2 Standards and equipment for verification ... 9 6.3 Verification items ... 9 6.4 Verification method ... 10 6.5 Processing of verification results ... 16 6.6 Verification period ... 17 Appendix A pH standard solution ... 18 Appendix B k value at (0 ~ 100) °C ... 20 Appendix C Original record format for verification ... 21 Appendix D Format of the inner page of the verification certificate/verification result notice ... 25 Verification regulation of laboratory pH meters 1 Scope This Regulation applies to the initial verification, subsequent verification, in-use inspection, for laboratory pH (acidity) meters AND laboratory general-purpose ion meters that can be used as pH (acidity) meters. 2 Normative references This Regulation cites the following documents: GB/T 11165-2005 pH Meter GB/T 20245.2-2013 Expression of performance of electrochemical analyzers - Part 2: pH value IUPAC: 2002 Measurement of pH. Definition, Standards and Procedures OIML R54:1981 (E) pH Scale for Aqueous Solutions For dated references, only the dated version applies to this Regulation; for undated references, the latest edition (including all amendments) applies to this Regulation. 3 Overview A laboratory pH (acidity) meter (hereinafter referred to as a pH meter) is an electrochemical analytical instrument, which is used to measure the pH of an aqueous solution. The pH meter is mainly composed of an electric meter AND a measuring electrode. The electric meter part includes impedance converter, amplifier, positioning regulator, slope regulator, temperature compensator, display, etc. The measuring electrode includes indicating electrode and reference electrode. The indicator electrode of the composite electrode is mostly a glass electrode; the reference electrode is often called the internal reference electrode. A pH meter measures the pH of a solution, using a comparative method. The measurement principle is as follows: a battery is composed of an indicator electrode, a reference electrode, a pH standard buffer solution; the electrometer measures the battery's electromotive force ES; the pH standard value pHS is input. After calibrating the pH meter, replace it with the solution to be tested and the same pair of electrodes, 6.4.8 Indication error caused by input impedance Connect the pH meter and the calibrator, according to the circuit in Figure 1. Disconnect the calibrator's high resistance. The pH meter selects the pH measurement mode. Adjust the temperature compensation to 25 °C (or a certain intermediate temperature point). Adjust the calibrator, so that it outputs a signal, which is equivalent to (pHD + 6). Record the pH meter's indication value, pH1. Connect to high resistance (when the resolution of the display unit is 0.001, connect to 1 GΩ high resistance; for other resolutions, connect to 3 GΩ high resistance). Adjust the calibrator, so that its output signal is pHD. Adjust the pH meter, so that the pH indication value is 7 (or the pH meter's equipotential pH value). Adjust the calibrator, to make it output the signal of (pHD + 6) again. Record the pH meter's indication value pH2. Repeat the above operation three times. Use the formula (7), to calculate the indication error, ΔpHR, which is caused by the input impedance. Where: - Respectively, the average pH value 3 measurements, before and after high resistance access. When testing the input signal (pHD - 6), by the same method, the indication error, ΔpH'R, which is caused by the input impedance, takes the larger of ΔpHR and ΔpH'R as the verification result of this item. 6.4.9 Approximate equivalent input impedance Take the larger median value of ΔpHR and ΔpH'R in 6.4.8. Use the formula (8) or formula (9), to calculate the equivalent input impedance r or r' of the electric meter. If ΔpHR and ΔpH'R are both zero, substitute half of the resolution of the display unit of pH meter into the formula, for calculation. Where: R - The high resistance of the calibrator, Ω. 6.4.10 Indication error caused by temperature compensation 6.4.10.1 Indication error caused by manual temperature compensation Connect the pH meter and the calibrator, according to the circuit in Figure 1. Disconnect the calibrator's high resistance. The pH meter selects the pH measurement mode. Adjust the temperature compensation, to a temperature other than 25 °C. Including the upper and lower limit temperatures of the temperature compensation function, there are no less than 5 temperature points to be verified. At each verification point, adjust the calibrator, so that it outputs a signal equivalent to (pHD + 6) at the temperature. Record the value of the pH meter. Repeat the measurement 2 times. Calculate the indication error ΔpHT, which is caused by temperature compensation, according to formula (10). Where: - The average pH value of pH meter in 2 measurements; pHD - Equipotential pH value of the calibrator; pHS - The standard value of the calibrator. 6.4.10.2 Indication error caused by automatic temperature compensation Connect the pH meter and the calibrator, according to the circuit in Figure 1. Disconnect the calibrator's high resistance. The pH meter selects the pH measurement mode. Put the thermometer and pH meter temperature probe, into the constant temperature water tank. Adjust the temperature of the constant temperature water tank, to a temperature other than 25 °C. Select not less than 5 temperature points uniformly, in the range of (5 ~ 60) °C. At each verification point, adjust the calibrator, to output a signal equivalent to (pHD + 6), at the temperature (standard temperature of the thermometer). Record the indication value of pH, temperature, temperature indications of the electric meter. Repeat the measurement 2 times. Calculate the indication error, ΔpHT, which is caused by temperature compensation, according to formula (10). 6.4.11 Temperature measurement error of temperature probe Calculate the temperature measurement error, ΔT, of the pH meter's temperature probe at different temperature points, according to the pH meter's temperature indication value and the thermometer temperature's indication value, which are recorded in 6.4.10.2, according to formula (11). Take the largest absolute value of ΔT, as the verification result of this item. Where: - The average value of the two temperature measurements of the pH meter's temperature probe, °C; - The average value of 2 temperature measurements of the thermometer, °C. 6.4.12 Repeatability of indication value of electric meter Connect the pH meter and the calibrator, according to the circuit in Figure 1. Disconnect the calibrator's high resistance. The pH meter selects the pH measurement mode. Adjust the temperature compensation to 25 °C (or some intermediate temperature point). Adjust the calibrator, to output a signal equivalent to (pHD + 3) at this temperature. Connect a 1 GΩ high resistance. Record the pHi of the pH meter, after the pH meter is stable. Repeat the above operation 6 times. Calculate the repeatability spH of the electric meter's indication value, according to the formula (12). where: - The average pH value of 6 measurements; n - The number of measurements, n = 6. 6.4.13 Indication error of instrument Select (3 ~ 5) kinds of standard solutions in Table A.1 of Appendix A. Place them in a constant temperature water tank, at a constant temperature. Under normal operating conditions of the pH meter, use a standard solution to calibrate it. THEN, measure another standard solution, which is not used in the verification. Repeat the above operation 6 times. Calculate the pH meter's indication error ΔpHS, according to formula (13). The pH meter's verification shall try to choose a method with high accuracy; the pH difference, between the verification solution and the solution to be measured, should not exceed 3. Where: - The average value of six measurements of the standard solution to be tested; pHSS - The pH value of the standard solution. 6.4.14 Repeatability of instrument's indication value Take the 6 measurement data in 6.4.13. Calculate the measurement repeatability of the pH meter, s'pH, according to formula (14). Where: pHi - The measured value of the standard solution to be tested; - The average value of six measurements of the standard solution to be tested; n - The number of measurements, n = 6. 6.5 Processing of verification results 6.5.1 A pH meter, that meets both general technical requirements and measurement performance requirements, is a qualified instrument. The pH meter, that has passed the verification, is issued with a verification certificate. The verification results and instrument level of each item shall be given on the verification certificate. 6.5.2 For a pH meter, that is in use AND after repair, if the electrical meter's verification meets the requirements of the Regulations, BUT when the pH meter with original electrode is beyond the requirements of the Regulation, in case of the verification of the whole machine, the inspection unit can choose a new electrode for re-verification. After the electrode is replaced, if the whole machine is verified as qualified, it is still a qualified instrument, AND a verification certificate is issued. 6.5.3 When the pH meter cannot meet the requirements of this level, it is allowed to downgrade for use. Descending to the next level must meet the requirements of that level of pH meter. If the minimum requirements of the verification Regulations are still not met, after the downgrade, THEN the instrument is unqualified, a notice of verification results shall be issued, AND the unqualified items shall be indicated. ...