Detail publikace

Bisected Thermodynamic Sensor as the Power AC/DC Transmitter

Originální název

Bisected Thermodynamic Sensor as the Power AC/DC Transmitter

Anglický název

Bisected Thermodynamic Sensor as the Power AC/DC Transmitter

Jazyk

en

Originální abstrakt

Some final users especially from RF area are asking for galvanic isolated sensors independent to contiguous environment effects. Such applications can be realized by the bisected thermodynamic sensor probe. The basic principle of this solution is bisected thermodynamic sensor with the thermodynamic environment temperature shift between both active sensor sections to influence of ambient temperature compensation. The simulation model of bisected thermodynamic sensor as particular segment elements of thermodynamic system was simulated. Values obtained from simulation are compared and discussed with experimental results.

Anglický abstrakt

Some final users especially from RF area are asking for galvanic isolated sensors independent to contiguous environment effects. Such applications can be realized by the bisected thermodynamic sensor probe. The basic principle of this solution is bisected thermodynamic sensor with the thermodynamic environment temperature shift between both active sensor sections to influence of ambient temperature compensation. The simulation model of bisected thermodynamic sensor as particular segment elements of thermodynamic system was simulated. Values obtained from simulation are compared and discussed with experimental results.

BibTex


@inproceedings{BUT29354,
  author="Michal {Řezníček} and Ivan {Szendiuch} and Zdeněk {Řezníček}",
  title="Bisected Thermodynamic Sensor as the Power AC/DC Transmitter",
  annote="Some final users especially from RF area are asking for galvanic isolated sensors independent to contiguous environment effects. Such applications can be realized by the bisected thermodynamic sensor probe. The basic principle of this solution is bisected thermodynamic sensor with the thermodynamic environment temperature shift between both active sensor sections to influence of ambient temperature compensation. The simulation model of bisected thermodynamic sensor as particular segment elements of thermodynamic system was simulated. Values obtained from simulation are compared and discussed with experimental results.",
  booktitle="EMPC2009 17th European Microelectronics and Packaging Conference & Exhibition",
  chapter="29354",
  howpublished="electronic, physical medium",
  year="2009",
  month="june",
  pages="33--38",
  type="conference paper"
}