A capacitance element that includes a first lower electrode and a second lower electrode arranged adjacent to each other in a Y-axis direction on a substrate. A first dielectric layer is on the first lower electrode, and a second dielectric layer is on the second lower electrode. A first upper electrode and a second upper electrode are arranged adjacent to each other in an X-axis direction on the first dielectric layer, and a third upper electrode and a fourth upper electrode are arranged adjacent to each other in an X-axis direction on the second dielectric layer. Interlayer conductors are respectively in contact with the first through fourth upper electrodes. A first connection conductor connects the second interlayer conductor and the fourth interlayer conductor to each other.

A capacitor provides a plurality of selectable capacitance values, by selective connection of six capacitor sections of a capacitive element each having a capacitance value. The capacitor sections are provided in a plurality of wound cylindrical capacitive elements. Two vertically stacked wound cylindrical capacitance elements may each provide three capacitor sections. There may be six separately wound cylindrical capacitive elements each providing a capacitor section. The capacitor sections have a common element terminal.

A capacitor provides a plurality of selectable capacitance values, by selective connection of six capacitor sections of a capacitive element each having a capacitance value. The capacitor sections are provided in a plurality of wound cylindrical capacitive elements. Two vertically stacked wound cylindrical capacitance elements may each provide three capacitor sections. There may be six separately wound cylindrical capacitive elements each providing a capacitor section. The capacitor sections have a common element terminal.

A capacitor provides a plurality of selectable capacitance values, by selective connection of six capacitor sections of a capacitive element each having a capacitance value. The capacitor sections are provided in a plurality of wound cylindrical capacitive elements. Two vertically stacked wound cylindrical capacitance elements may each provide three capacitor sections. There may be six separately wound cylindrical capacitive elements each providing a capacitor section. The capacitor sections have a common element terminal.

A capacitor provides a plurality of selectable capacitance values, by selective connection of six capacitor sections of a capacitive element each having a capacitance value. The capacitor sections are provided in a plurality of wound cylindrical capacitive elements. Two vertically stacked wound cylindrical capacitance elements may each provide three capacitor sections. There may be six separately wound cylindrical capacitive elements each providing a capacitor section. The capacitor sections have a common element terminal.

A chip capacitor and a method for manufacturing the chip capacitor, where the chip capacitor includes a substrate, a first external electrode disposed on the substrate, a second external electrode disposed on the substrate, capacitor elements formed on the substrate and connected between the first external electrode and the second external electrode, and fuses that are formed on the substrate, are each interposed between the capacitor elements and the first external electrode or the second external electrode, and are capable of disconnecting each of the capacitor elements.

A chip capacitor and a method for manufacturing the chip capacitor, where the chip capacitor includes a substrate, a first external electrode disposed on the substrate, a second external electrode disposed on the substrate, capacitor elements formed on the substrate and connected between the first external electrode and the second external electrode, and fuses that are formed on the substrate, are each interposed between the capacitor elements and the first external electrode or the second external electrode, and are capable of disconnecting each of the capacitor elements.

A multilayer electronic component includes an element body having internal electrode layers and dielectric layers. These are substantially parallel to a plane including a first axis and a second axis and are alternately laminated along a third axis direction. Side surfaces oppositely facing in the first axis direction are respectively equipped with an insulating layer. End surfaces facing each other in the second axis direction are respectively equipped with an external electrode. End portions in the first axis direction of the internal electrode layers are recessed from end portions in the first axis direction of the dielectric layers to an inner side along the first axis direction. The retraction distances are varied at a predetermined range in each layer of the internal electrode layers.

A multilayer electronic component includes an element body having internal electrode layers and dielectric layers. These are substantially parallel to a plane including a first axis and a second axis and are alternately laminated along a third axis direction. Side surfaces oppositely facing in the first axis direction are respectively equipped with an insulating layer. End surfaces facing each other in the second axis direction are respectively equipped with an external electrode. End portions in the first axis direction of the internal electrode layers are recessed from end portions in the first axis direction of the dielectric layers to an inner side along the first axis direction. The retraction distances are varied at a predetermined range in each layer of the internal electrode layers.

A variable capacitor, including: two movable plates, two poles, and one rotary shaft. The two movable plates are conductor belts, and the conductor belts are sheathed in insulators. The two poles are conductors, and each is capable of rotating around an axis thereof. First ends of the two movable plates are connected via the insulators and fixed on the rotary shaft, and second ends of the two movable plates are connected to the two poles, respectively. A conductor member of the two movable plates directly contacts the two poles. The lengths of the two movable plates are identical, and are greater than the distance from one pole to the rotary shaft.