Abstract
The invention is concerned with a temperature radiation measuring equipment for non-contact temperature measurement by the light intensity variation method, with a photoelectric resistance as the measuring element. By having a circuit with a transistor, the 'dark resistance' occurring in the course of time is compensated for and thus gives a genuine reading (ie. the voltage drop across the photoelectric resistance remains constant).
Citation Formats
Lotzer, W.
Temperature radiation measuring equipment. Temperaturstrahlungsmessgeraet.
Germany: N. p.,
1981.
Web.
Lotzer, W.
Temperature radiation measuring equipment. Temperaturstrahlungsmessgeraet.
Germany.
Lotzer, W.
1981.
"Temperature radiation measuring equipment. Temperaturstrahlungsmessgeraet."
Germany.
@misc{etde_6284409,
title = {Temperature radiation measuring equipment. Temperaturstrahlungsmessgeraet}
author = {Lotzer, W}
abstractNote = {The invention is concerned with a temperature radiation measuring equipment for non-contact temperature measurement by the light intensity variation method, with a photoelectric resistance as the measuring element. By having a circuit with a transistor, the 'dark resistance' occurring in the course of time is compensated for and thus gives a genuine reading (ie. the voltage drop across the photoelectric resistance remains constant).}
place = {Germany}
year = {1981}
month = {Jan}
}
title = {Temperature radiation measuring equipment. Temperaturstrahlungsmessgeraet}
author = {Lotzer, W}
abstractNote = {The invention is concerned with a temperature radiation measuring equipment for non-contact temperature measurement by the light intensity variation method, with a photoelectric resistance as the measuring element. By having a circuit with a transistor, the 'dark resistance' occurring in the course of time is compensated for and thus gives a genuine reading (ie. the voltage drop across the photoelectric resistance remains constant).}
place = {Germany}
year = {1981}
month = {Jan}
}