Thin film capacitor and method of manufacturing the same

The invention claimed is: 1. A capacitor comprising: a lower electrode; a dielectric film on the lower electrode; an upper electrode facing the lower electrode with the dielectric film interposed therebetween; a first protective film on the dielectric film and on a surface of the upper electrode opposite to a surface thereof facing the dielectric layer, the first protective film defining a first through hole that opens to the upper electrode and a second through hole that opens to the lower electrode, and having a first upper surface that defines a first height of the first through hole and a second height of the second through hole; a second protective film located in a part of a region in a plan view defined by the first upper surface of the first protective film, the second protective film having a second upper surface located higher than the first upper surface of the first protective film and a side surface extending from an outer edge of the second upper surface toward the first upper surface; a first terminal electrode electrically connected to the upper electrode through the first through hole, the first terminal electrode extending at least from the side surface to the second upper surface of the second protective film; and a second terminal electrode electrically connected to the lower electrode through the second through hole, the second terminal electrode extending at least from the side surface to the second upper surface of the second protective film. 2. The capacitor according to claim 1 , wherein a thickness of the second protective film is greater than the first height of the first through hole. 3. The capacitor according to claim 1 , wherein a thickness of the second protective film is 2 times to 20 times that of the first height of the first through hole. 4. The capacitor according to claim 1 , wherein a thickness of the second protective film is 0.2 times to 2 times of a width of the first terminal electrode or the second terminal electrode in a direction in which the first through hole and the second through hole are aligned in the plan view of the first upper surface of the first protective film. 5. The capacitor according to claim 1 , wherein the second protective film is in a first location between the first through hole and the second through hole on the first upper surface of the first protective film. 6. The capacitor according to claim 5 , wherein the second protective film is further in a second location outside of the first location between the first through hole and the second through hole on the first upper surface of the first protective film. 7. The capacitor according to claim 6 , wherein the side surface of the second protective film has an inversely tapered shape extending from the first upper surface to the second upper surface. 8. The capacitor according to claim 1 , wherein the side surface of the second protective film has an inversely tapered shape extending from the first upper surface to the second upper surface. 9. The capacitor according to claim 1 , wherein the first protective film and the second protective film are integral films. 10. The capacitor according to claim 1 , wherein the first protective film and the second protective film are separate films. 11. The capacitor according to claim 1 , wherein, in the plan view of the first upper surface of the first protective film, the first terminal electrode and the second terminal electrode are each aligned at a same distance from an outer edge of the first upper surface in a first direction intersecting with a second direction in which the first through hole and the second through hole are aligned. 12. A capacitor comprising: a lower electrode; a dielectric film on the lower electrode; an upper electrode facing the lower electrode with the dielectric film interposed therebetween; a protective film on the dielectric film and on a surface of the upper electrode opposite to a surface thereof facing the dielectric layer, the protective film having an upper surface located higher than an upper surface of the dielectric film, and a side surface extending from an outer edge of the upper surface of the protective film toward the upper surface of the dielectric film; a first terminal electrode electrically connected to the upper electrode through a first through hole and extending at least from the side surface to the upper surface of the protective film; and a second terminal electrode electrically connected to the lower electrode through a second through hole and extending at least from the side surface to the upper surface of the protective film, wherein a thickness of the protective film above the upper electrode is 0.2 times to 2 times of a width of the first terminal electrode or the second terminal electrode in a direction in which the first terminal electrode and the second terminal electrode are aligned in a plan view of the capacitor. 13. The capacitor according to claim 12 , wherein the protective film is in a first location between the first terminal electrode and the second terminal electrode. 14. The capacitor according to claim 13 , wherein the protective film is further in a second location outside of the first location between the first terminal electrode and the second terminal electrode. 15. The capacitor according to claim 14 , wherein the side surface of the protective film has an inversely tapered shape extending from the dielectric layer to the upper surface of the protective film. 16. The capacitor according to claim 12 , wherein the side surface of the second protective film has an inversely tapered shape extending from the dielectric layer to the upper surface of the protective film. 17. A method of manufacturing a capacitor, the method comprising: providing a lower electrode; covering the lower electrode with a dielectric film; providing an upper electrode on the dielectric film so as to face the lower electrode; providing a first protective film on the dielectric film and on a surface of the upper electrode opposite to a surface thereof facing the dielectric layer, the first protective film defining a first through hole that opens to the upper electrode and a second through hole that opens to the lower electrode, and having a first upper surface that defines a first height of the first through hole and a second height of the second through hole; providing a second protective film in a part of a region in a plan view defined by the first upper surface of the first protective film, the second protective film having a second upper surface located higher than the first upper surface of the first protective film and a side surface extending from an outer edge of the second upper surface toward the first upper surface; and electrically connecting a first terminal electrode and a second terminal electrode to the upper electrode and the lower electrode through the first through hole and the second through hole, respectively, each of the first terminal electrode and the second terminal electrode extending at least from the side surface to the second upper surface of the second protective film.