Abstract: A semiconductor structure is formed as follows. Trenches are formed in a semiconductor region and a shield electrode is formed in each trench. Gate electrodes are formed in a portion of the trenches that form an active region. Each gate electrode is disposed over the shield electrode and is isolated from the shield electrode by an inter-electrode dielectric. An interconnect layer is formed extending over the trenches. The interconnect layer is isolated from the gate electrodes in the active region by a dielectric layer and contacts the shield electrodes in a shield contact region separate from the active region. The interconnect layer contacts mesa surfaces between adjacent trenches in the shield contact region.

Abstract: Semiconductor devices and methods for making such devices are described. The semiconductor devices contain dopant regions that have been formed by low temperature, microwave activation of implanted dopants. In some configurations, the low temperature microwave activation can be used to control the final location of the implant, with or without additional drive-in or implant processes. In some configurations, this control can be used to create heavy body implants. Microwave activation of source regions and well regions in the semiconductor devices can also be used to optimize the implants where supplemental drive-in processes may be necessary to get the required final implant depth. By activating the implanted dopants using lower temperatures, many of the unwanted features introduced into the semiconductor devices by high temperature Rapid Thermal Process (RTP) can be avoided. Other embodiments are described.

Abstract: A semiconductor structure is formed as follows. Trenches are formed in a semiconductor region and a shield electrode is formed in each trench. Gate electrodes are formed in a portion of the trenches that form an active region. Each gate electrode is disposed over the shield electrode and is isolated from the shield electrode by an inter-electrode dielectric. An interconnect layer is formed extending over the trenches. The interconnect layer is isolated from the gate electrodes in the active region by a dielectric layer and contacts the shield electrodes in a shield contact region separate from the active region. The interconnect layer contacts mesa surfaces between adjacent trenches in the shield contact region.

Abstract: A semiconductor structure comprises an active region comprising trenches extending into a semiconductor region. Each trench includes a shield electrode and a gate electrode. The semiconductor structure also comprises a shield contact region adjacent to the active region. The shield contact region comprises at least one contact trench extending into the semiconductor region. The shield electrode from at least one of the trenches in the active region extends along a length of the contact trench. The semiconductor structure also comprises an interconnect layer extending over the active region and the shield contact region. In the active region the interconnect layer is isolated from the gate electrode in each trench by a dielectric layer and contacts mesa surfaces of the semiconductor region adjacent to the trenches. In the shield contact region the interconnect layer contacts the shield electrode and the mesa surfaces of the semiconductor region adjacent to the contact trench.

Abstract: A semiconductor structure comprises an active region comprising trenches extending into a semiconductor region. Each trench includes a shield electrode and a gate electrode. The semiconductor structure also comprises a shield contact region adjacent to the active region. The shield contact region comprises at least one contact trench extending into the semiconductor region. The shield electrode from at least one of the trenches in the active region extends along a length of the contact trench. The semiconductor structure also comprises an interconnect layer extending over the active region and the shield contact region. In the active region the interconnect layer is isolated from the gate electrode in each trench by a dielectric layer and contacts mesa surfaces of the semiconductor region adjacent to the trenches. In the shield contact region the interconnect layer contacts the shield electrode and the mesa surfaces of the semiconductor region adjacent to the contact trench.