AN ANALYSIS OF THE MOTT-SCHOTTKY BEHAVIOR IN ZNO-BI2O3 BASED VARISTORS

A series of non-converging frequency-dependent Mott-Schottky straight lines can lead to significant errors in the calculation of the device- related parameters (such as; built-in-potential, barrier height, carri er concentration, etc.) for the ZnO-Bi2O3 based varistors. These error s are illustrated using the frequency-dependent slope of these straigh t lines. To avoid this problem, a method of obtaining the frequency-in dependent Mott-Schottky response has been devised for these devices. T his method employs the well-known lumped parameter/complex plane analy sis technique, and thereby resolves the complexity of the frequency-de pendent Mott-Schottky response. Using this technique, it is possible t o characterize the Mott-Schottky behavior of varistor materials withou t incorporating frequency-dependent phenomenon in the analysis. These parameters are self-consistent, and satisfy the basic/classical Mott-S chottky equation. (C) 1995 American Institute of Physics.