SENSECA
Magnetostrictive continuous level transmitters base their operation on the physical principle called Wiedemann effect and it allows continuous and precise measurement of liquid levels. The electronic unit sends a pulse within a waveguide contained in the measuring rod; the magnetic float intercepts the pulse generating an echo that is detected by the same electronic unit. The elapsing time between the emission of the pulse and its recognition is directly proportional to the position of the float, and then to the value of the level to be measured.
Magnetostrictive continuous level transmitters base their operation on the physical principle called Wiedemann effect and it allows continuous and precise measurement of liquid levels. The electronic unit sends a pulse within a waveguide contained in the measuring rod; the magnetic float intercepts the pulse generating an echo that is detected by the same electronic unit. The elapsing time between the emission of the pulse and its recognition is directly proportional to the position of the float, and then to the value of the level to be measured.