Mathematical Processing of a Pyroelectric Detector: Time DomainIvanchenko I.S., 28 лют. 2019 р. - 23 стор. Alexander Bondarenko, list of publications: 2018 Mathematical Modeling of a Pyroelectric Detector 2019 Mathematical Processing of a Pyroelectric: Time Domain 2020 The World's First Achievement: The Art of Professional Mathematical Approximations of a Pyroelectric Detector 2021 High-Precision Mathematical Approximation of Single Element Lithium Tantalate Pyroelectric Detectors with Sophisticated Circuit Technology |
Загальні терміни та фрази
2.26 Maximum Signal approximated pyroelectric Voltage continuous variable disturbance heat flow dynamic responses Dynamic time responsivity electric pyroelectric ETNEP expected noise voltage Expected normalized function of temperature heat flow INPUT lithium tantalate main output voltage mathematical processing Measurable voltage measured in units measurement point n-1 The standard noise equivalent power noise ratio noise voltage Vn normalized time detectivity normalized time noise NOTES _____________________________________________________________ _____________________________________________________________ output voltage PolyProcUOUTPUT(t primary pyroelectric effect processed pyroelectric main Processed pyroelectric residual Processing the results pyroelectric main output pyroelectric residual output quasi-static responses random variable represents a curve represents a single residual output voltage residual pyroelectric voltage responsivity error sampling rate Signal to noise Silverlight single number standard deviation static responses Static time responsivity Student’s tertiary pyroelectric effect thermal pulse transient response unit step response units of V/W units of W Vn in units voltage Processed pyroelectric voltage ProcUOUTPUT(t voltage UOUTPUT(t zero in units