Title :
Precision and accuracy in the measurements of responsivity
Author :
Santos, Tiago G. ; Mendonca, M.F. ; Lopes, R.C. ; Delfino, C.A. ; Vieira, G.S.
Author_Institution :
Inst. Tecnol. de Aeronaut.-ITA, São José dos Campos, Brazil
Abstract :
In this work we discuss some error sources in the determination of infrared sensors responsivity, identifying, quantifying and, when possible, proposing ways of minimize them. The errors may happen on the reading of electrical signal, or on the illumination of the sensor under test. When reading the electric signal, noise may be read as signal, even when using a lock in amplifier, and also signal intensity may be lost on the electric cables and connections, before reaching the pre-amplifier. During illumination of the sensor, geometrical distortions, unplanned reflections, radiation partial obstruction and atmospheric absorption can make the calculated signal intensity unreal, even if the source itself is a very good one.
Keywords :
cables (electric); distortion; infrared detectors; measurement errors; optical variables measurement; photodetectors; preamplifiers; atmospheric absorption; electric cables; electric connections; electrical signal reading; error source; geometrical distortion; infrared sensor; lock-in amplifier; preamplifier; radiation partial obstruction; responsivity measurement error; sensor illumination; sensor under test; signal intensity; unplanned reflection; Atmospheric measurements; Choppers (circuits); Current measurement; Distortion measurement; Iris; Photodetectors; blackbody; chopper; infrared sensor; lock-in; responsivity;
Conference_Titel :
Microelectronics Technology and Devices (SBMicro), 2014 29th Symposium on
Conference_Location :
Aracaju
DOI :
10.1109/SBMicro.2014.6940098
