An aerogel capacitor includes: a substrate including a capacitor structure including an aerogel, a dielectric layer and a conductive layer, and a support surrounding the capacitor structure; and an electrode unit including a first electrode and a second electrode provided on the substrate. The first electrode is connected to the aerogel and the second electrode is connected to the conductive layer.

An aerogel capacitor includes: a substrate including a capacitor structure including an aerogel, a dielectric layer and a conductive layer, and a support surrounding the capacitor structure; and an electrode unit including a first electrode and a second electrode provided on the substrate. The first electrode is connected to the aerogel and the second electrode is connected to the conductive layer.

A capacitor includes a first electrode, a dielectric, and a second electrode. The first electrode is located on a dielectric layer. The dielectric covers the sidewall and the top surface of the first electrode. The second electrode covers the dielectric and the dielectric layer, wherein the orthographic projection area of the second electrode on the dielectric layer is greater than the orthographic projection area of the first electrode on the dielectric layer. The capacitor of the invention has good reliability.

A capacitor includes a first electrode, a dielectric, and a second electrode. The first electrode is located on a dielectric layer. The dielectric covers the sidewall and the top surface of the first electrode. The second electrode covers the dielectric and the dielectric layer, wherein the orthographic projection area of the second electrode on the dielectric layer is greater than the orthographic projection area of the first electrode on the dielectric layer. The capacitor of the invention has good reliability.

A multilayer ceramic capacitor and a method of manufacturing the same are disclosed. A base part of the multilayer ceramic capacitor includes ceramic dielectric and inner electrodes formed inside the ceramic dielectric, and a terminal of each of the inner electrodes is exposed out of one of the two opposite sides of the base part, to form inner electrode terminals. First outer electrodes are formed on the two sides of the base part and the outside of the inner electrode terminals, and second outer electrodes are formed on the first outer electrodes. The first outer electrodes and the base part are formed together by sintering manner, and the second outer electrodes are formed by metal powder and resin material, thereby solving the problem that the vitreous component diffuses around, or solving the problem that plating solution permeates into the base part or the ceramic dielectric during plating process.

Embodiments disclosed herein include an electronics package and methods of forming such electronics packages. In an embodiment, the electronics package comprises a plurality of build-up layers. In an embodiment, the build-up layers comprise conductive traces and vias. In an embodiment, the electronics package further comprises a capacitor embedded in the plurality of build-up layers. In an embodiment, the capacitor comprises: a first electrode, a high-k dielectric layer over portions of the first electrode, and a second electrode over portions of the high-k dielectric layer.

A capacitor according to one embodiment of the present invention relates to a thin film capacitor including a base member and a MIM structure provided on the base member. The thin film capacitor includes a first external electrode and a second external electrode that are electrically connected to the MIM structure. The base member has a plurality of through holes penetrating between a first surface and a second surface of the base member. The MIM structure includes a first portion extending along the first surface of the base member, a second portion extending along the second surface of the base member, and a third portion provided in the plurality of through holes of the base member so as to connect the first portion to the second portion.

A capacitor according to one embodiment of the present invention relates to a thin film capacitor including a base member and a MIM structure provided on the base member. The thin film capacitor includes a first external electrode and a second external electrode that are electrically connected to the MIM structure. The base member has a plurality of through holes penetrating between a first surface and a second surface of the base member. The MIM structure includes a first portion extending along the first surface of the base member, a second portion extending along the second surface of the base member, and a third portion provided in the plurality of through holes of the base member so as to connect the first portion to the second portion.

Capacitor structures with pitch-matched capacitor unit cells are described. In an embodiment, the capacitor unit cells are formed by interdigitated finger electrodes. The finger electrodes may be pitch-matched in multiple metal layers within a capacitor unit cell, and the finger electrodes may be pitch-matched among an array of capacitor unit cells. Additionally, border unit cells may be pitch-matched with the capacitor unit cells.

Capacitor structures with pitch-matched capacitor unit cells are described. In an embodiment, the capacitor unit cells are formed by interdigitated finger electrodes. The finger electrodes may be pitch-matched in multiple metal layers within a capacitor unit cell, and the finger electrodes may be pitch-matched among an array of capacitor unit cells. Additionally, border unit cells may be pitch-matched with the capacitor unit cells.