Abstract: A ceramic-wound-capacitor includes a first-electrically-conductive-layer, a dielectric-layer, a second-electrically-conductive-layer, and a protective-coating. The dielectric-layer is formed of lead-lanthanum-zirconium-titanate (PLZT). The protective-coating has a thickness of less than ten micrometers (10 ?m) and provides electrical isolation between the first-electrically-conductive-layer and the second-electrically-conductive-layer of the ceramic-wound-capacitor.

Abstract: A capacitor assembly includes a capacitor having ends. A terminal covers less than an area of one end. A wire bond has opposing ends with one end being coupled to the terminal and is configured to break connection with a circuit when an electrical current through the wire bond reaches a fusing current. An energy storage module includes at least two capacitor assemblies. The wire bond of one capacitor is electrically connected to the second terminal of an adjacent capacitor. An energy storage assembly includes two energy storage modules stacked one on top of the other. A pulse forming network includes conductors and at least two energy storage modules. A method of making a module includes charging each of the capacitors, removing each capacitor that fails, connecting one end of a wire bond to one terminal and connecting the other end to an adjacent capacitor or to a conductor.

Abstract: In accordance with an embodiment of the disclosure, an asymmetric supercapacitor includes a first active material with a high hydrogen over-potential and a second active material with a high oxygen over-potential. The first active material is based on a nitride, an oxynitride, a carbide, an oxycarbide, a boride, or an oxyboride of a metal selected from Groups III, IV, V, VI, and VII of the Periodic Table.

Abstract: The present disclosure discloses a thin-film capacitor for an electric vehicle, including: a casing, a plurality of capacitor cores, an anode busbar, a cathode busbar, a first electrode terminal, a second electrode terminal, a first connection sheet, a second connection sheet, a first battery connection sheet, a second battery connection sheet, a first battery connection terminal and a second battery connection terminal, in which the first battery connection sheet is connected to the anode busbar and adjacent to an end of the anode busbar, the second battery connection sheet is connected to the cathode busbar and adjacent to the first battery connection sheet, an axis of one of the plurality of the capacitor cores is arranged to be perpendicular to the anode busbar and the cathode busbar and two ends of the one capacitor core are connected to the first battery connection sheet and the second battery connection sheet respectively.

Abstract: Supercapacitor structures are provided which include, for example: one or more layers of supercapacitors; and one or more contact tabs. The one or more contact tabs electrically contact and extend outward from the supercapacitor structure to facilitate electrical connection to the supercapacitor structure, and the one or more contact tabs include a multi-contact tab. The multi-contact tab is configured and sized with multiple contact locations which are disposed external to the supercapacitor structure. Various supercapacitor structures are provided, including one supercapacitor structure with a shared C-shaped current collector, and another supercapacitor structure with stacked supercapacitors. One or more additional multi-contact tabs may also extend from the supercapacitor structure(s) and distribute the same or a different capacitor voltage than the multi-contact tab.

Abstract: There is a film capacitor capable of suppressing decrease in the electrostatic capacitance even after a self-healing phenomenon has occurred. A film capacitor includes a dielectric film; and an electrode film disposed on a principal surface of the dielectric film, the dielectric film containing an organic resin and an organic component having a higher volatility than the organic resin. The organic resin is preferably any one of a cyclic olefin-based resin, a polyarylate resin, a polyphenylene ether resin and a polyetherimide resin. The organic component is preferably at least one selected from the group consisting of cyclohexane, ethylcyclohexane, toluene, xylene, chloroform, and tetrahydrofuran.

Abstract: A multilayer ceramic electronic component includes an inner layer part comprising dielectric layers and internal electrodes that are alternately disposed; and cover parts disposed on upper and lower surfaces of the inner layer part. The cover parts contain a nickel metal.

Abstract: A flexible printed circuit board is disclosed. In one aspect, the flexible printed circuit board includes a plurality of signal-transmitting lines formed in a signal-transmitting area and a plurality of first pads formed in a pad area adjacent to the signal-transmitting area and electrically connected to the signal-transmitting lines. The flexible printed circuit board also includes an adhesive-penetrating groove formed between two adjacent ones of the first pads. The adhesive-penetrating groove is formed in a length direction extending from the pad area to at least a portion of the signal-transmitting area.

Abstract: An improved solid electrolytic capacitor, and method of making the solid electrolytic capacitor, is described. The solid electrolytic capacitor comprises a pressed powder anode and a braided lead wire extending from the anode. A dielectric is on the anode and a cathode is on the dielectric.

Abstract: An electrolytic capacitor includes a body having a casing and a capacitor core. The casing includes a side having an opening intercommunicated with a receiving space of the casing in which the capacitor core is mounted. The sealing cover is mounted in the opening and includes a lid and an enveloping member. The lid includes a first side adjacent to the capacitor core, a second side, and an outer periphery extending between the first side and the second side of the lid. The enveloping member is securely engaged with the lid by insert molding. The enveloping member is engaged with the first side, the second side, and the outer periphery of the lid.

Abstract: In an embodiment, a multilayer ceramic capacitor 10 is formed in such a way that a first face f1 of a capacitor body 11 has a concave shape and a first part 12a of a first external electrode 12 contacts the concave-shaped first face f1, and that a second face f2 of the capacitor body 11 has a concave shape and a first part 13a of a second external electrode 13 contacts the concave-shaped second face f2.

Abstract: An apparatus, includes a substrate, an electronic component disposed over the substrate, and a frame element disposed over the substrate. The frame element provides structural rigidity to the apparatus. The apparatus also includes an encapsulating material disposed over an upper surface of the substrate, the electronic component and the frame element. An electrically conductive layer is disposed over the encapsulating material.

Abstract: Devices and methods of operating partitioned actuator plates to obtain a desirable shape of a movable component of a micro-electro-mechanical system (MEMS) device. The subject matter described herein can in some embodiments include a micro-electro-mechanical system (MEMS) device including a plurality of actuation electrodes attached to a first surface, where each of the one or more actuation electrode being independently controllable, and a movable component spaced apart from the first surface and movable with respect to the first surface. Where the movable component further includes one or more movable actuation electrodes spaced apart from the plurality of fixed actuation electrodes.

Abstract: A capacitive touch sensor (100) is provided. The capacitive touch sensor (100) includes an electrode (110) disposed between a plate (120) and a spring (130) wherein the spring (130) presses the electrode (110) towards the plate (120) in a direction that is substantially parallel to a longitudinal length (L) of the spring (130) and the electrode (110) has a flat sensing surface (112) parallel with the plate (120).

Abstract: A supercapacitor including: a shell; a chamber in the shell; a first electrode and a second electrode on respective walls of the chamber; and a separator arranged between the first electrode and the second electrode through the chamber. The separator includes a first perforated membrane and a second perforated membrane, which is movable with respect to the first membrane between a first position, in which the first membrane and the second membrane are separate and a second position, in which the first membrane and the second membrane are in contact and coupled for rendering the separator impermeable.

Abstract: A multilayer capacitor includes a body including a capacitor body formed by layering a plurality of dielectric layers and a plurality of first and second internal electrodes in a width direction, the first and second internal electrodes including body portions overlapping each other and lead portions exposed to a mounting surface of the capacitor body and disposed to be spaced apart from each other, respectively; and first, second and third external electrodes disposed on the mounting surface of the capacitor body to be connected to the lead portions, respectively, wherein the first, second and third external electrodes each include first, second and third electrode layers which are sequentially stacked, the first and second electrode layers containing metal and glass particles, and the third electrode layer containing a conductive resin.

Abstract: A composite electronic component includes a first and second electronic elements, and a joint material. The first electronic element includes a base member, and an upper surface conductor on an upper surface of the base member. The second electronic element includes an element body with a lower surface facing the upper surface of the base member, and a terminal conductor disposed on the lower surface of the element body. The joint material joins the upper surface conductor and the terminal conductor. The upper surface conductor includes a conductive layer in which a metal that is maximum in weight ratio is Ag. The lateral surface of the conductive layer is covered with conductive layers defining a protective metal film, and the metal that is maximum in weight ratio contained in the conductive layers defining a protective metal film is a metal other than Ag and Cu.

Abstract: In a width direction of a ceramic laminate, one end portion of a first internal electrode and one end portion of a second internal electrode each include metal phases of a Ni region, a Ni—O region, and a Ni—O—Mg region disposed in this order from a first internal electrode side and a second internal electrode side, respectively, to a first side surface of the ceramic laminate. The other end portion of the first internal electrode and the other end portion of the second internal electrode each include metal phases of a Ni region, a Ni—O region, and a Ni—O—Mg region disposed in this order from the first internal electrode side and the second internal electrode side, respectively, to a second side surface of the ceramic laminate.

Abstract: An energy storage device having improved heat-dissipating includes a cell assembly formed by connecting at least two cylindrical energy storage cells in series, a case having an accommodation portion shaped corresponding to an outer surface of the energy storage cells to accommodate the cell assembly, and a heat-dissipating pad installed between an outer surface of the energy storage cells of the cell assembly and an inner surface of the accommodation portion, wherein the case includes at least two case blocks, and wherein the accommodation portion is formed by coupling the case blocks.

Abstract: Capacitors having electrodes made of interconnected corrugated carbon-based networks (ICCNs) are disclosed. The ICCN electrodes have properties that include high surface area and high electrical conductivity. Moreover, the electrodes are fabricated into an interdigital planar geometry with dimensions that range down to a sub-micron scale. As such, micro-supercapacitors employing ICCN electrodes are fabricated on flexible substrates for realizing flexible electronics and on-chip applications that can be integrated with micro-electromechanical systems (MEMS) technology and complementary metal oxide semiconductor technology in a single chip. In addition, capacitors fabricated of ICCN electrodes that sandwich an ion porous separator realize relatively thin and flexible supercapacitors that provide compact and lightweight yet high density energy storage for scalable applications.