| 摘要 |
In a semiconductor substrate of a semiconductor device, a drift layer, a body layer, an emitter layer, and a trench gate electrode are formed. When the semiconductor substrate is viewed in a plane manner, the semiconductor substrate is divided into a first region covered with a heat dissipation member, and a second region not covered with the heat dissipation member. A density of trench gate electrodes in the first region is equal to a density of trench gate electrodes in the second region. A value obtained by dividing an effective carrier amount of channel parts formed in the first region by an area of the first region is larger than a value obtained by dividing an effective carrier amount of channel parts formed in the second region by an area of the second region. |
| 主权项 |
1. A semiconductor device comprising:
a semiconductor substrate; a top surface electrode making contact with a top surface of the semiconductor substrate; a bottom surface electrode making contact with a bottom surface of the semiconductor substrate; and a heat dissipation member disposed above the top surface electrode, wherein: the semiconductor substrate includes
a drift layer having a first conductivity type,a body layer having a second conductivity type, the body layer making contact with a top surface of the drift layer,a first semiconductor layer having the first conductivity type, the first semiconductor layer making contact with a top surface of the body layer, isolated from the drift layer by the body layer, exposed on the top surface of the semiconductor substrate, and making ohmic contact with the top surface electrode,a second semiconductor layer having the second conductivity type, the second semiconductor layer making contact with the top surface of the body layer, isolated from the drift layer by the body layer, exposed on the top surface of the semiconductor substrate, and making ohmic contact with the top surface electrode,trench gate electrodes disposed in respective gate trenches, the respective gate trenches penetrating through the body layer from the top surface of the semiconductor substrate to reach the drift layer, anda gate insulating film disposed between each of the trench gate electrodes and a wall surface of a corresponding one of the gate trenches; when the semiconductor substrate is viewed in a plane manner, each of the trench gate electrodes includes a first part and a second part, the first part being opposite to the first semiconductor layer via the gate insulating film, and the second part being opposite to the second semiconductor layer via the gate insulating film; channel parts are formed in parts of the body layer which are opposite to the first parts of the trench gate electrodes; when the semiconductor substrate is viewed in a plane manner, the semiconductor substrate is divided into a first region covered with the heat dissipation member, and a second region not covered with the heat dissipation member; a density of the trench gate electrodes in the first region is equal to a density of the trench gate electrodes in the second region; and a value obtained by dividing an effective carrier amount of the channel parts formed in the first region by an area of the first region is larger than a value obtained by dividing an effective carrier amount of the channel parts formed in the second region by an area of the second region. |
