Archivio Istituzionale della RicercaThis paper deals with two scales that are conceived to operate inside a freeze-dryer, where the environmental conditions (temperature down to – 80 ºC and pressure down to 0.5 Pa) prevent traditional mass transducers to be employed. One scale is based on a parallel-electrode capacitor, whose capacity depends on the position of a moving electrode that, in turn, depends on the unknown mass. The capacity change is converted into a frequency change by means of an oscillator circuit. The second scale, which is still under development, is based on electrostatic levitation. A fixed metallic plate is divided into four sectors connected to a high voltage generator. The resulting electric field is used to levitate a moving metallic plate which carries the unknown mass. A prototype of the capacitor-based scale has shown an uncertainty of a few tenths of grams in the range of 0 g to 250 g.
Mass measurement into a freeze-dryer / Carullo, Alessio; Parvis, Marco; Vallan, Alberto. - STAMPA. - III:(2000), pp. 19-24. (Intervento presentato al convegno XVI IMEKO World Congress tenutosi a Vienna, Austria nel September 25-28, 2000).
Mass measurement into a freeze-dryer
CARULLO, Alessio;PARVIS, Marco;VALLAN, Alberto
2000
Abstract
This paper deals with two scales that are conceived to operate inside a freeze-dryer, where the environmental conditions (temperature down to – 80 ºC and pressure down to 0.5 Pa) prevent traditional mass transducers to be employed. One scale is based on a parallel-electrode capacitor, whose capacity depends on the position of a moving electrode that, in turn, depends on the unknown mass. The capacity change is converted into a frequency change by means of an oscillator circuit. The second scale, which is still under development, is based on electrostatic levitation. A fixed metallic plate is divided into four sectors connected to a high voltage generator. The resulting electric field is used to levitate a moving metallic plate which carries the unknown mass. A prototype of the capacitor-based scale has shown an uncertainty of a few tenths of grams in the range of 0 g to 250 g.
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https://hdl.handle.net/11583/1409737
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