Balance Calibration A Method For Assigning A Direct Reading Uncertainty To An Electronic Balance

Balance Calibration - A Method for Assigning a Direct-Reading Uncertainty to an Electronic Balance

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File Size : 38,15 MB

Release : 2010

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Paper Title: Balance Calibration - A method for assigning a direct-reading uncertainty to an electronic balance. Intended Audience: Those who calibrate or use electronic balances. Abstract: As a calibration facility, we provide on-site (at the customer's location) calibrations of electronic balances for customers within our company. In our experience, most of our customers are not using their balance as a comparator, but simply putting an unknown quantity on the balance and reading the displayed mass value. Manufacturer's specifications for balances typically include specifications such as readability, repeatability, linearity, and sensitivity temperature drift, but what does this all mean when the balance user simply reads the displayed mass value and accepts the reading as the true value? This paper discusses a method for assigning a direct-reading uncertainty to a balance based upon the observed calibration data and the environment where the balance is being used. The method requires input from the customer regarding the environment where the balance is used and encourages discussion with the customer regarding sources of uncertainty and possible means for improvement; the calibration process becomes an educational opportunity for the balance user as well as calibration personnel. This paper will cover the uncertainty analysis applied to the calibration weights used for the field calibration of balances; the uncertainty is calculated over the range of environmental conditions typically encountered in the field and the resulting range of air density. The temperature stability in the area of the balance is discussed with the customer and the temperature range over which the balance calibration is valid is decided upon; the decision is based upon the uncertainty needs of the customer and the desired rigor in monitoring by the customer. Once the environmental limitations are decided, the calibration is performed and the measurement data is entered into a custom spreadsheet. The spreadsheet uses measurement results, along with the manufacturer's specifications, to assign a direct-read measurement uncertainty to the balance. The fact that the assigned uncertainty is a best-case uncertainty is discussed with the customer; the assigned uncertainty contains no allowance for contributions associated with the unknown weighing sample, such as density, static charges, magnetism, etc. The attendee will learn uncertainty considerations associated with balance calibrations along with one method for assigning an uncertainty to a balance used for non-comparison measurements.





Improved Automated Electronic Balance Calibration Program

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Page : 4 pages

File Size : 47,15 MB

Release : 1995

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An improved automated electronic balance calibration and record system has been developed using a spread sheet to consolidate information required to calibrate electronic balances and satisfy requirements for traceability, validation and documentation. Several improvements have been made over an Epson HX-20{trademark} notebook computer-based balance calibration system, which was developed at the Savannah River Site in 1986 and used continuously since to annually calibrate electronic balances. These improvements included: built in tables of balance models performance test limits and calibration standards' apparent masses & uncertainties; calculated ratios of balance to test weight uncertainties; bar-code data input; enhanced graphs and tables; and permanent electronic records. The software and hardware were thoroughly tested by calibrating 30 balances in another department. Hardware for importing data from balances through an RS-232 interface and bar code reader into a portable computer's spread sheet was evaluated and found to add little value to the calibration process. Computerized data collection minimizes record handling and reduces paper work costs by>50%. Databases are established for each organization's electronic balances that contain records for each balance that are identified by model, property identification number and location. In addition, each record contains calibration and expiration dates, performance testing information, etc. Details of equipment, statistical testing, spread sheet features and examples of the program are described.





An Alternative Test for Verifying Electronic Balance Linearity

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Page : 16 pages

File Size : 26,96 MB

Release : 1998

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This paper presents an alternative method for verifying electronic balance linearity and accuracy. This method is being developed for safeguards weighings (weighings for the control and accountability of nuclear material) at the Idaho National Engineering and Environmental Laboratory (INEEL). With regard to balance linearity and accuracy, DOE Order 5633.3B, Control and Accountability of Nuclear Materials, Paragraph 2, 4, e, (1), (a) Scales and Balances Program, states: ''All scales and balances used for accountability purposes shall be maintained in good working condition, recalibrated according to an established schedule, and checked for accuracy and linearity on each day that the scale or balance is used for accountability purposes.'' Various tests have been proposed for testing accuracy and linearity. In the 1991 Measurement Science Conference, Dr. Walter E. Kupper presented a paper entitled: ''Validation of High Accuracy Weighing Equipment.'' Dr. Kupper emphasized that tolerance checks for calibrated, state-of-the-art electronic equipment need not be complicated, and he presented four easy steps for verifying that a calibrated balance is operating correctly. These tests evaluate the standard deviation of successive weighings (of the same load), the off-center error, the calibration error, and the error due to nonlinearity. This method of balance validation is undoubtedly an authoritative means of ensuring balance operability, yet it could have two drawbacks: one, the test for linearity is not intuitively obvious, especially from a statistical viewpoint; and two, there is an absence of definitively defined testing limits. Hence, this paper describes an alternative means of verifying electronic balance linearity and accuracy that is being developed for safeguards measurements at the INEEL.



Dictionary of Weighing Terms

Author : Roland Nater

Publisher : Springer Science & Business Media

Page : 275 pages

File Size : 45,74 MB

Release : 2009-10-03

Category : Science

ISBN : 3642020143

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This Dictionary of Weighing Terms is a comprehensive practical guide to the terminology of weighing for all users of weighing instruments in industry and science. It explains more than 1000 terms of weighing technology and related areas; numerous illustrations assist understanding. The Dictionary of Weighing Terms is a joint work of the German Federal Institute of Physics and Metrology (PTB) and METTLER TOLEDO, the weighing instruments manufacturer. Special thanks go to Peter Brandes, Michael Denzel, and Dr. Oliver Mack of PTB, and to Richard Davis of BIPM, who with their technical knowledge have contributed to the success of this work. The Dictionary contains terms from the following fields: fundamentals of weighing, application and use of weighing instruments, international standards, legal requirements for weighing instruments, weighing accuracy. An index facilitates rapid location of the required term. The authors welcome suggestions and corrections at www.mt.com/w eighing-terms. Braunschweig (DE) and Greifensee (CH), The Authors Summer 2009 Foreword Since its founding in 1875, the International Bureau of Weights and Measures (BIPM) has had a unique role in mass metrology. The definition of the kilogram depends on an artefact conserved and used within our laboratories. The mass embodied in this - tefact defines the kilogram, and this information is disseminated throughout the world to promote uniformity of measurements. Although the definition of the kilogram may change in the re- tively near future, reflecting the success of new technologies and new requirements, the task of ensuring world-wide uniformity of mass measurements will remain.



Handbook of Mass Measurement

Author : Frank E. Jones

Publisher : CRC Press

Page : 334 pages

File Size : 35,84 MB

Release : 2002-03-26

Category : Mathematics

ISBN : 1420038451

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Book Description

"How much does it weigh?" seems a simple question. To scientists and engineers, however, the answer is far from simple, and determining the answer demands consideration of an almost overwhelming number of factors. With an intriguing blend of history, fundamentals, and technical details, the Handbook of Mass Measurement sets forth the details





Publications

Author : United States. National Bureau of Standards

Publisher :

Page : 1216 pages

File Size : 15,57 MB

Release : 1957

Category : Government publications

ISBN :

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Guidelines for Evaluating and Expressing the Uncertainty of NIST Measurement Results (rev. Ed. )

Author : Barry N. Taylor

Publisher : DIANE Publishing

Page : 25 pages

File Size : 41,85 MB

Release : 2009-11

Category : Science

ISBN : 1437915566

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Results of measurements and conclusions derived from them constitute much of the technical information produced by the National Institute of Standards and Technology (NIST). In July 1992 the Director of NIST appointed an Ad Hoc Committee on Uncertainty Statements and charged it with recommending a policy on this important topic. The Committee concluded that the CIPM approach could be used to provide quantitative expression of measurement that would satisfy NIST¿s customers¿ requirements. NIST initially published a Technical Note on this issue in Jan. 1993. This 1994 edition addresses the most important questions raised by recipients concerning some of the points it addressed and some it did not. Illustrations.