摘要:
The present disclosure provides a micro-electro-mechanical systems (MEMS) device and a method for fabricating such a device. In an embodiment, a MEMS device includes a substrate, a dielectric layer above the substrate, an etch stop layer above the dielectric layer, and two anchor plugs above the dielectric layer, the two anchor plugs each contacting the etch stop layer or a top metal layer disposed above the dielectric layer. The device further comprises a MEMS structure layer disposed above a cavity formed between the two anchor plugs and above the etch stop layer from release of a sacrificial layer.
摘要:
A microelectromechanical system (MEMS) device that reduces or eliminates stiction includes a substrate and a movable element at least partially suspended above the substrate and having at least one degree of freedom. A protrusion extends from the substrate and is configured to contact the movable element when the moving element moves in the at least one degree of freedom. The protrusion comprises a surface having a low surface energy relative a silicon oxide surface. The protrusion may be coupled to a voltage potential node to avoid or counteract electrostatic forces.
摘要:
The present disclosure provides a micro-electro-mechanical systems (MEMS) device and a method for fabricating such a device. In an embodiment, a MEMS device includes a substrate, a dielectric layer above the substrate, an etch stop layer above the dielectric layer, and two anchor plugs above the dielectric layer, the two anchor plugs each contacting the etch stop layer or a top metal layer disposed above the dielectric layer. The device further comprises a MEMS structure layer disposed above a cavity formed between the two anchor plugs and above the etch stop layer from release of a sacrificial layer.
摘要:
A package system includes a first substrate structure including at least one first conductive structure that is disposed over a first substrate. A second substrate structure includes a second substrate. The second substrate structure is bonded with the first substrate structure. The at least one first conductive structure is electrically coupled with the second substrate through at least one germanium-containing layer.
摘要:
A microelectromechanical system (MEMS) device that reduces or eliminates stiction includes a substrate and a movable element at least partially suspended above the substrate and having at least one degree of freedom. A protrusion extends from the substrate and is configured to contact the movable element when the moving element moves in the at least one degree of freedom. The protrusion comprises a surface having a low surface energy relative a silicon oxide surface. The protrusion may be coupled to a voltage potential node to avoid or counteract electrostatic forces.
摘要:
An apparatus including a bypass structure for complementary metal-oxide-semiconductor (CMOS) and/or microelectromechanical system (MEMS) devices, and method for fabricating such apparatus, is disclosed. An exemplary apparatus includes a first substrate; a second substrate that includes a MEMS device; an insulator disposed between the first substrate and the second substrate; and an electrical bypass structure disposed in the insulator layer that contacts a portion of the first substrate, wherein the electrical bypass structure is electrically isolated from the MEMS device in the second substrate and any device included in the first substrate.
摘要:
An apparatus including a bypass structure for complementary metal-oxide-semiconductor (CMOS) and/or microelectromechanical system (MEMS) devices, and method for fabricating such apparatus, is disclosed. An exemplary apparatus includes a first substrate; a second substrate that includes a MEMS device; an insulator disposed between the first substrate and the second substrate; and an electrical bypass structure disposed in the insulator layer that contacts a portion of the first substrate, wherein the electrical bypass structure is electrically isolated from the MEMS device in the second substrate and any device included in the first substrate.
摘要:
An embodiment is a method for bonding. The method comprises bonding a handle substrate to a capping substrate; thinning the capping substrate; etching the capping substrate; and after the thinning and the etching the capping substrate, bonding the capping substrate to an active substrate. The handle substrate has an opening therethrough. The method also comprises removing the handle substrate from the capping substrate. The removing comprises providing an etchant through the opening to separate the handle substrate from the capping substrate. Other embodiments further include forming a bonding material on a surface of at least one of the handle substrate and the capping substrate such that the capping substrate is bonded to the handle substrate by the bonding material. The bonding material may be removed by using a dry etching to remove the handle substrate from the capping substrate.
摘要:
An embodiment is a method for forming a microelectromechanical system (MEMS) device. The method comprises forming a MEMS structure over a first substrate, wherein the MEMS structures comprises a movable element; forming a bonding structure over the first substrate; and forming a support structure over the first substrate, wherein the support structure protrudes from the bonding structure. The method further comprises bonding the MEMS structure to a second substrate; and forming a through substrate via (TSV) on a backside of the second substrate, wherein the overlying TSV is aligned with the bonding structure and the support structure.
摘要:
An embodiment is a method for bonding. The method comprises bonding a handle substrate to a capping substrate; thinning the capping substrate; etching the capping substrate; and after the thinning and the etching the capping substrate, bonding the capping substrate to an active substrate. The handle substrate has an opening therethrough. The method also comprises removing the handle substrate from the capping substrate. The removing comprises providing an etchant through the opening to separate the handle substrate from the capping substrate. Other embodiments further include forming a bonding material on a surface of at least one of the handle substrate and the capping substrate such that the capping substrate is bonded to the handle substrate by the bonding material. The bonding material may be removed by using a dry etching to remove the handle substrate from the capping substrate.