Solid electrolytic capacitor module with improved planarity

What is claimed is: 1. A method of assembling a solid electrolytic capacitor module having an upper module surface and a lower module surface, the method comprising: providing a plurality of active capacitors, each of the plurality of active capacitors comprising a capacitor element and an active capacitor case that encapsulates the capacitor element, wherein the active capacitor case includes an upper surface adjacent the upper module surface, a lower surface adjacent the lower module surface, opposing side surfaces, a front surface, and a rear surface; providing a sacrificial capacitor, wherein the sacrificial capacitor comprises a sacrificial capacitor case, wherein the sacrificial capacitor case includes an upper surface, a lower surface, opposing side surfaces, a front surface, and a rear surface; positioning the plurality of active capacitors on a planar surface so that the lower surface of each of the active capacitor cases is in contact with the planar surface, wherein the plurality of active capacitors are aligned along a horizontal direction so that the side surfaces of the active capacitor cases are parallel to each other; and positioning the sacrificial capacitor adjacent one of the side surfaces of one of the plurality of active capacitors so that the lower surface of the sacrificial capacitor case is in contact with the planar surface, wherein the sacrificial capacitor is aligned along the horizontal direction so that the side surfaces of the sacrificial capacitor case and the side surfaces of the active capacitor cases are parallel to each other. 2. The method of claim 1 , further comprising positioning a conductor along the horizontal direction at the upper module surface so that the conductor is contact with a cathode termination present on the upper surface of each of the active capacitor cases. 3. The method of claim 2 , wherein the sacrificial capacitor comprises a lead frame, wherein the lead frame includes an external component present on the upper surface of the sacrificial capacitor case, the method further comprising connecting the external component to the conductor at the upper surface of the sacrificial capacitor case. 4. The method of claim 3 , wherein the lead frame further includes an external component present on the lower surface of the sacrificial capacitor case and wherein an anode termination is present on the lower surface of each of the active capacitor cases, wherein the external component present on the lower surface of the sacrificial capacitor case and each of the anode terminations present on the lower surface of each of the active capacitor cases are configured to be mounted to a circuit board. 5. The method of claim 3 , wherein the external component of the lead frame and the anode terminations are generally coplanar. 6. The method of claim 1 , further comprising placing a shell around the upper surfaces of the active capacitor cases and the upper surface of the sacrificial capacitor case, wherein the shell defines the upper module surface. 7. The method of claim 1 , wherein the lower surface of the sacrificial capacitor case and the lower surfaces of the active capacitor cases are generally coplanar. 8. The method of claim 1 , wherein a difference in distance from a horizontal plane between the lower surface of the sacrificial capacitor case and the lower surface of each of the active capacitor cases is less than about 0.005 inches (0.127 millimeters).