Forward I(V) measurements of Titanium/4H-SiC Schottky rectifiers are presen
ted in a large temperature range. Significant dispersion is observed on the
room temperature characteristics. Some of the rectifiers show good agreeme
nt with the thermionic model. Other samples present excess current at low v
oltage level. For these rectifiers we have been able to fit the experimenta
l characteristics assuming the coexistence of low and high barrier height a
reas. In this model, the forward current results from the addition of the t
hermionic currents provided by the two parallel diodes. Forward I(V) measur
ements as a function of temperature have been performed from 100 to 600 K.
On a given diode, a transition between one barrier and two barriers behavio
urs can be evidenced as temperature changes. Variations in the calculated b
arrier height and ideality factor are therefore evidenced. It is shown that
the excess current at low voltage depends on the ratio of the low Schottky
barrier region over the total diode area. Material inhomogeneity is one po
ssible explanation for the existence of inhomogeneous barrier height on the
Ti/4H-SiC contact. (C) 1999 Elsevier Science S.A. All rights reserved.