Some embodiments include an integrated assembly having first electrodes with top surfaces, and with sidewall surfaces extending downwardly from the top surfaces. The first electrodes are solid pillars. Insulative material is along the sidewall surfaces of the first electrodes. Second electrodes extend along the sidewall surfaces of the first electrodes and are spaced from the sidewall surfaces by the insulative material. Conductive-plate-material extends across the first and second electrodes, and couples the second electrodes to one another. Leaker-devices electrically couple the first electrodes to the conductive-plate-material and are configured to discharge at least a portion of excess charge from the first electrodes to the conductive-plate-material. Some embodiments include methods of forming integrated assemblies.

Some embodiments include an integrated assembly having first electrodes with top surfaces, and with sidewall surfaces extending downwardly from the top surfaces. The first electrodes are solid pillars. Insulative material is along the sidewall surfaces of the first electrodes. Second electrodes extend along the sidewall surfaces of the first electrodes and are spaced from the sidewall surfaces by the insulative material. Conductive-plate-material extends across the first and second electrodes, and couples the second electrodes to one another. Leaker-devices electrically couple the first electrodes to the conductive-plate-material and are configured to discharge at least a portion of excess charge from the first electrodes to the conductive-plate-material. Some embodiments include methods of forming integrated assemblies.

A capacitor comprises a housing and a first stack of parallel plates within the housing. A first plate and a second plate in the first stack are capacitively coupled. The capacitor comprises a second stack of parallel plates within the housing. A third plate and a fourth plate in the stack are capacitively coupled. The capacitor also comprises a first input electrode and a second input electrode. The capacitor also comprises a first output electrode and a second output electrode on a side surface of the capacitor. The capacitor also comprises a dielectric material located between each plate in the first stack and the second stack. The first stack is not capacitively coupled with the second stack.

A capacitor comprises a housing and a first stack of parallel plates within the housing. A first plate and a second plate in the first stack are capacitively coupled. The capacitor comprises a second stack of parallel plates within the housing. A third plate and a fourth plate in the stack are capacitively coupled. The capacitor also comprises a first input electrode and a second input electrode. The capacitor also comprises a first output electrode and a second output electrode on a side surface of the capacitor. The capacitor also comprises a dielectric material located between each plate in the first stack and the second stack. The first stack is not capacitively coupled with the second stack.

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.

Disclosed herein is an LC filter that includes a conductive substrate, a first capacitive insulating film having one surface covered with the conductive substrate and other surface covered with a first capacitive electrode, a first inductor pattern having one end connected to the first capacitive electrode, a first terminal electrode connected to other end of the first inductor pattern, and a common terminal electrode connected to the conductive substrate.

Disclosed herein is an LC filter that includes a conductive substrate, a first capacitive insulating film having one surface covered with the conductive substrate and other surface covered with a first capacitive electrode, a first inductor pattern having one end connected to the first capacitive electrode, a first terminal electrode connected to other end of the first inductor pattern, and a common terminal electrode connected to the conductive substrate.

An integrated circuit (IC) includes a substrate and a first capacitor on the substrate. The first capacitor has a first width. A first dielectric layer is provided on a side of the first capacitor opposite the substrate. Further, a second capacitor is present on a side of the first dielectric layer opposite the first capacitor. The second capacitor has a second width that is smaller than the first width. The IC also has a second dielectric layer and a first metal layer. The second dielectric layer is on a side of the second capacitor opposite the first dielectric layer. The first metal layer is on a side of the second dielectric layer opposite the second capacitor.

A film capacitor includes: a main body portion including dielectric films and metal films which are laminated; external electrodes; and an insulating layer disposed on a surface of the main body portion. The main body portion includes a pair of first faces, a pair of first side faces and a pair of second side faces, the first side faces and the second side faces connecting the first faces. The external electrodes are disposed on the first side faces, respectively. The metal films each include a plurality of first segments into which the metal films are divided by a plurality of first grooves extending in a first direction. The insulating layer is disposed between the main body portion and parts of the external electrodes within first regions which are regions of the first side faces that are distant from the second side faces, respectively, by a distance of P or less.