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A solid electrolytic capacitor that contains a capacitor element that includes an anode body, dielectric layer, and solid electrolyte is provided. The capacitor also contains an anode lead that is electrically connected to the anode body by a refractory metal paste (e.g., tantalum paste). The use of

A solid electrolytic capacitor that contains a capacitor element that includes an anode body, dielectric layer, and solid electrolyte is provided. The capacitor also contains an anode lead that is electrically connected to the anode body by a refractory metal paste (e.g., tantalum paste). The use of such a refractory metal paste allows the anode lead to be sinter bonded to a surface of the anode body after it is pressed. In this manner, a strong and reliable connection may be achieved without substantially decreasing the surface area of the lead that is available for connection to a termination. Furthermore, because the lead is not embedded within the anode body, the capacitor may be configured so that little, if any, portion of the lead extends beyond the anode body. This may result in a highly volumetrically efficient capacitor with excellent electrical properties.

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1. A solid electrolytic capacitor comprising: a capacitor element that includes an anode body, a dielectric layer overlying at least a portion of the anode body, and a cathode overlying at least a portion of the dielectric layer, the cathode including a solid electrolyte, and wherein the anode body

1. A solid electrolytic capacitor comprising: a capacitor element that includes an anode body, a dielectric layer overlying at least a portion of the anode body, and a cathode overlying at least a portion of the dielectric layer, the cathode including a solid electrolyte, and wherein the anode body is a pressed porous pellet;an anode lead that is electrically connected to a surface of the anode body by a refractory metal paste, wherein the refractory metal paste is sinter bonded to both the anode lead and the anode body;an anode termination that is electrically connected to the anode lead, wherein the anode termination contains a first component that is generally parallel to a first surface of the capacitor element;a cathode termination that is electrically connected to the cathode, wherein the cathode termination contains a second component that is generally parallel to the first surface of the capacitor element, wherein the anode termination and cathode termination both extend primarily in a direction that is parallel to the first surface of the capacitor element, the anode and cathode terminations being electrically connected to the first surface of the capacitor element; anda case that encapsulates the entire capacitor element so that the capacitor has an upper surface and opposing lower surface, wherein the anode termination and the cathode termination are primarily encapsulated within the case except that at least a portion of the first component and the second component remain exposed by the case at the lower surface of the capacitor. 2. The solid electrolytic capacitor of claim 1, wherein the anode body includes tantalum, niobium, or an electrically conductive oxide thereof. 3. The solid electrolytic capacitor of claim 1, wherein the anode lead contains tantalum or niobium. 4. The solid electrolytic capacitor of claim 1, wherein the refractory metal paste includes a plurality of particles. 5. The solid electrolytic capacitor of claim 4, wherein the particles are formed from tantalum. 6. The solid electrolytic capacitor of claim 4, wherein the particles have an average size of from about 0.01 to about 20 micrometers. 7. The solid electrolytic capacitor of claim 1, wherein the paste has a thickness of from about 0.01 to about 50 micrometers. 8. The solid electrolytic capacitor of claim 1, wherein the surface of the anode body defines a recessed region to which the anode lead is electrically connected. 9. The solid electrolytic capacitor of claim 8, wherein the recessed region is generally U-shaped. 10. The solid electrolytic capacitor of claim 1, wherein the anode lead extends in a longitudinal direction, further wherein the ratio of the distance that the anode lead extends beyond a surface of the anode body in the longitudinal direction to the length of the anode body in the longitudinal direction is about 0.5 or less. 11. The solid electrolytic capacitor of claim 1, wherein the anode lead contains a protective coating that electrically isolates the anode termination from the cathode termination. 12. The solid electrolytic capacitor of claim 1, wherein the solid electrolyte includes manganese dioxide or a conductive polymer. 13. The solid electrolytic capacitor of claim 1, wherein the cathode termination is electrically connected to the first surface of the capacitor element. 14. The solid electrolytic capacitor of claim 1, wherein the exposed portions of the first component and the second component are generally coplanar. 15. The solid electrolytic capacitor of claim 1, wherein the exposed portions of the first component and the second component respectively define an upper surface facing a lower surface of the capacitor element and an opposing lower surface facing away from the lower surface of the capacitor element, wherein the lower surfaces of the first component and the second component are configured to be mounted to a circuit board. 16. The solid electrolytic capacitor of claim 1, wherein a single refractory metal paste is used to electrically connect the anode lead to a surface of the anode body.