R. Ramovic scite author profile

PurposeThe paper aims to focus on thick film planar thermistors.Design/methodology/approachThick film planar thermistors such as rectangular, sandwich, multilayer, segmented and interdigitated were printed of law temperature NTC paste called NTC 3K3 95/2 (Ei Iritel). Their resistivity was measured at room temperature as a function of volume resistivity variations due to electrode effect (diffusion of PdAg into NTC layer) and variation of geometrical parameters such as length l, width w, thickness d, number of segments n. The experimental data obtained were used in forming a model by the simple fitting procedure for counting diffusion effect on volume resistivity and resistivity dependence on geometrical parameters.FindingsThermal behavior of NTC thick films was measured in the range of −30‐120°C. Exponential factor B was fitted for measured values and included in the proposed thick film thermistors model. The agreement of measured and calculated data enables simulation of new thermistor geometries.Originality/valueThe paper focuses on the experiment which was the first step in forming a total physical/mathematical model proposed for thick film thermistor resistivity.

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Analytical Modeling of the Triggering Drain Voltage at the Onset of the Kink Effect for PD SOI NMOS

Sarajlić¹,

Ramovic²

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A novel analytical model of a SiC MOSFET

Ramovic

Jevtic²,

Hadzi-Vukovic³

et al.

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R. Ramovic

Electrode Effect on NTC Planar Thermistor Volume Resistivity

An alternative method for transistor low frequency noise estimation by measuring phase noise of test oscillator

Modeling and simulation of NTC thick film thermistor geometries

Analytical Modeling of the Triggering Drain Voltage at the Onset of the Kink Effect for PD SOI NMOS

A novel analytical model of a SiC MOSFET

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