Patent ID: 8426910
Filing Date: 2013-04-23
Classification: H01L

Abstract:
1. A semiconductor device for use in a power supply circuit which includes: a first MOSFET having a source drain path, and a second MOSFET having a source drain path coupled to the source drain path of the first MOSFET and which is included in the semiconductor device, wherein a load element is coupled to the connection node of the source drain path of the first MOSFET and the source drain path of the second MOSFET, the semiconductor device including the second MOSFET and a Schottky barrier diode, comprising: a semiconductor substrate having a first semiconductor layer and a second semiconductor layer on the first semiconductor layer, each of the first and second semiconductor layers having an n-type conductivity; a first region and a second region on a main surface of the second semiconductor layer; a plurality of first trenches in the first region; a first gate insulating film of the second MOSFET formed in each first trench; a first gate electrode of the second MOSFET formed in each first trench; a channel forming region of the second MOSFET formed between each of adjacent first trenches, the channel forming region having a p-type conductivity; a source region of the second MOSFET formed on each channel forming region, the source region having an n-type conductivity; a plurality of second trenches formed in the second region; a second gate insulating film of the second MOSFET formed in each second trench; a second gate electrode of the second MOSFET formed in each second trench, all of said first and second gate electrodes being connected to each other; a drain electrode formed over a back surface of the first semiconductor layer and electrically connected with the first and second semiconductor layers; an interlayer insulating film formed over the first and second gate electrodes; and an upper electrode formed over the interlayer insulating film, said upper electrode being electrically connected with each source region, wherein the upper electrode and the second semiconductor layer in the second region form portions of the Schottky barrier diode; each of the portions of the Schottky barrier diode is located between adjacent second gate electrodes; and a center-to-center distance between adjacent first gate electrodes is smaller than a center-to-center distance between the adjacent second gate electrodes.