On the feasibility of super junction thick-SOI power LDMOS transistors for RF base station applications

摘要

The feasibility of applying the superjunction (SJ) concept to a thick-SOI LDMOS transistor for base station applications is studied in this paper. An extensive comparison with conventional RF LDMOS structures is performed in terms of breakdown voltage (V_(BR)) versus drift resistance (R_(dr)) values. Unlike conventional LDMOS structures, the R_(dr) value in SJ LDMOS structures not only depends on the doping concentration but especially on the characteristics of P and N pillars. The charge compensation due to inter-diffusion between adjacent pillars is responsible for the observed R_(dr) increase. In order to accomplish an optimum pillar formation with the minimum possible transition between P and N pillars with inherent net doping reduction, high energy multi-implantations and a small thermal budget must be used. Moreover, the distance between P and N pillar implantation windows must be properly set to alleviate the doping inter-diffusion effect. The V_(BR)/R_(dr) ratio value is a good indicator to evaluate the SJ LDMOS feasibility for RF applications.