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Realization of the system for measurement of high angular velocity

Petronijević Predrag D. / Drndarević Vujo R.

This paper presents a system solution for precise and reliable measurement of the turbomotor angular velocity in a wide dynamic range, from 10.000 to 95.000 rpm. Special attention is dedicated for selection of sensor element and hardware implementation for conditioning the signal obtained at the output of a sensor operating in the environment in which are present exhaust gases, high mechanical vibrations and big temperature changes. The accuracy of implemented system is better than ±0,45% on the whole measuring range.

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Realization of the system for measurement of high angular velocity

Petronijević Predrag D. / Drndarević Vujo R.

This paper presents a system solution for precise and reliable measurement of the turbomotor angular velocity in a wide dynamic range, from 10.000 to 95.000 rpm. Special attention is dedicated for selection of sensor element and hardware implementation for conditioning the signal obtained at the output of a sensor operating in the environment in which are present exhaust gases, high mechanical vibrations and big temperature changes. The accuracy of implemented system is better than ±0,45% on the whole measuring range.

Realization of the system for measurement of high angular velocity

Petronijević Predrag D. / Drndarević Vujo R.

This paper presents a system solution for precise and reliable measurement of the turbomotor angular velocity in a wide dynamic range, from 10.000 to 95.000 rpm. Special attention is dedicated for selection of sensor element and hardware implementation for conditioning the signal obtained at the output of a sensor operating in the environment in which are present exhaust gases, high mechanical vibrations and big temperature changes. The accuracy of implemented system is better than ±0,45% on the whole measuring range.

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Document information

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Title:

Realization of the system for measurement of high angular velocity

Contributors:

Petronijević Predrag D. (author) / Drndarević Vujo R. (author)

Published in:

Tehnika, Vol 73, Iss 4, Pp 539-546 (2018)

Publication date:

2018

ISSN:

0040-2176 , 2560-3086

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

measurement system , angular velocity , inductive sensor , turbomotor , Engineering (General). Civil engineering (General) , TA1-2040

Metadata by DOAJ is licensed under CC BY-SA 1.0

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