Lateral double diffused metal oxide semiconductor device and manufacturing method thereof

摘要

The present invention discloses a lateral double diffused metal oxide semiconductor (LDMOS) device and a manufacturing method thereof. The LDMOS device includes: drift region, an isolation oxide region, a first oxide region, a second oxide region, a gate, a body region, a source, and a drain. The isolation oxide region, the first oxide region, and the second oxide region have an isolation thickness, a first thickness, and a second thickness respectively, wherein the second thickness is less than the first thickness. The present invention can reduce a conduction resistance without decreasing a breakdown voltage of the LDMOS device by the first oxidation region and the second oxidation region.

主权项

1. A manufacturing method of a lateral double diffused metal oxide semiconductor (LDMOS) device, comprising:
providing a substrate with a first conductive type; forming with a second conductive type a drift region on the substrate, wherein the second conductive type is opposite to the first conductive type; forming an isolation oxide region on the drift region to define an operation region, wherein the operation region is located in the drift region; forming a first oxide region on the drift region in the operation region having a first thickness; forming a second oxide region on the drift region in the operation region having a second thickness without affecting the first thickness of the first oxide region, wherein the second oxide region is directly connected to the first oxide region in a lateral direction, wherein the second thickness is less than the first thickness; forming a gate on the drift region in the operation region, which overlays at least part of the second oxide region and part of the first oxide region, including:
forming a dielectric layer on the drift region, which is directly connected to the second oxide region in the lateral direction, wherein the second oxide region separates the dielectric layer and the first oxide region from each other;forming a stack layer on the dielectric layer; andforming a spacer layer over a side wall of the stack layer; forming a body region with a first conductive type in the drift region, and part of the body region is beneath the gate; forming a source with the second conductive type in the body region, wherein the spacer layer is located between the source and the stack layer from a top view; and forming a drain with the second conductive type in the drift region, which is located between the first oxide region and the isolation oxide region; wherein the first oxide region and the second oxide region are first and second local oxidation of silicon (LOCOS) structures respectively, and the isolation oxide region is a shallow trench isolation (STI) structure or a third local oxidation of silicon (LOCOS) structure; and wherein the isolation oxide region, the drain, the first oxide region, the second oxide region, and the dielectric layer are sequentially connected in the lateral direction.