Good Weighing Practice™ - The Global Weighing Guideline - Part 1: Measurement Uncertainty and Minimum Weight - METTLER TOLEDO
 

Good Weighing Practice™ - The Global Weighing Guideline - Part 1: Measurement Uncertainty and Minimum Weight

Learn about common misconceptions regarding balance selection and use as well as incorrect testing programs for periodic verification.
English , Français , 中文 , Deutsch , Hrvatski
Karl Fritsch Good weighing practice  
Summary
The first part of this webinar deals with the cornerstones for evaluating and selecting an appropriate weighing system: Measurement uncertainty and minimum weight. The selection of a weighing system which reliably fulfills the respective weighing accuracy requirements set by the user will be illustrated. In the framework of the calibration, it has been proven and documented that the selected weighing system fulfills the user's requirements. This is done by determining measurement uncertainty and minimum weight at the weighing equipment's installation location. Reference is made to applicable GxP, ISO and other rules. Further, samples of FDA warning letters are shown and management considerations are provided which help bridging the gap between sustainable quality of weighing data, risk reduction and efficiency enhancement.

Target audience
QA and QC managers, compliance managers, laboratory and production managers and balance responsible persons.

Presenter
Dr. Klaus Fritsch, Manager Compliance at METTLER TOLEDO.

Duration
1 hour.

Technical requirements
This webinar will be streamed online.

GWP® - The Global Weighing Guideline

Good Weighing Practice™ (GWP®) Webinar Preview Part 1 Measurement Uncertainty and Minimum Weight

Good Weighing Practice™ (GWP®) Webinar Preview Part 1 Measurement Uncertainty and Minimum Weight
For registration please visit http://www.mt.com/global/en/home/events/webinar/live/Good_Weighing_Practice_1_Measurement_uncertainty_minimum_weight_.html The first part of the webinar deals with one of the cornerstones for evaluating and selecting an appropriate weighing system, measurement uncertainty and minimum weight. It will be shown how a weighing system is selected which reliably fulfils the respective weighing accuracy requirements set by the user. In the framework of the calibration it is finally proven and documented that the selected weighing system fulfils the user's requirements, by determining measurement uncertainty and minimum weight at the balance's installation location. Reference is made to applicable GxP, ISO and other rules, examples of FDA warning letters are shown and management considerations are provided which help bridging the gap between sustainable quality of weighing data, risk reduction and efficiency enhancement.