Characterization of 6H-SiC JFETs for use in a temperature monitor operating from 25°C to 350°C

Autor: J.B. Casady, R.W. Johnson, W.C. Dillard
Rok vydání: 2002
Předmět:
Zdroj: 1995 Proceedings. 45th Electronic Components and Technology Conference.
DOI: 10.1109/ectc.1995.514394
Popis: 6H-SiC buried-gate n-channel depletion-mode Junction Field-Effect Transistors (JFETs) manufactured by Cree Research, Inc. were characterized from 25 to 350/spl deg/C in terms of transconductance (g/sub m/), pinchoff voltage (V/sub p/), output resistance (r/sub 0/), input resistance (R/sub in/), drain-to-source current at zero gate-to-source voltage (I/sub DSS/), gate-to-source reverse biased leakage current (I/sub GSS/), off-state drain-to-source current (I/sub DSS(off/)), and noise power spectral density (S/sub V/). Degradation of the small-signal voltage gain (to /spl sim/1 at 350/spl deg/C) as a result of increasing output resistance, was found to be the most serious device shortcoming. The 6H-SiC JFETs were tested for use in a temperature monitoring circuit (from 25 to 350/spl deg/C) currently under development at Auburn University for use in automotive and other industrial applications. A SPICE model was developed to match the experimental data obtained from the 6H-SiC JFETs and diode. The SPICE simulation of the temperature monitoring circuit's output voltage corresponded well with measured data as a function of temperature. Maximum temperature percent error was 2.4% over the temperature range of 25 to 350/spl deg/C.
Databáze: OpenAIRE