Light-emitting device

The invention claimed is: 1 . A light-emitting device comprising: a solid-state light-emitting element; a plurality of driving capacitors; and a switch, wherein the solid-state light-emitting element, the plurality of driving capacitors, and the switch, are on or in a substrate, wherein, when the switch is turned on, the switch is configured to discharge a charged electric charge of the plurality of driving capacitors to the solid-state light-emitting element through a plurality of driving current loops, wherein the plurality of driving capacitors comprises a plurality of capacitors that are configured to store a driving electric charge for the solid-state light-emitting element and that are connected in parallel, wherein each of the plurality of capacitors, the solid-state light-emitting element, and the switch form the plurality of driving current loops, and wherein time constants of a plurality of discharge paths formed by the plurality of capacitors and the plurality of driving current loops coincide. 2 . The light-emitting device according to claim 1 , wherein when the time constants coincide, a light emitting pulse width of the solid-state light-emitting element is narrower than the light emitting pulse width of the solid-state light-emitting element when a single capacitor is a driving capacitor. 3 . The light-emitting device according to claim 1 , wherein time constants of the plurality of discharge paths coincide within a range of ±50% of an average of the time constants. 4 . The light-emitting device according to claim 1 , wherein capacitances of the plurality of capacitors are substantially equal, and wherein the plurality of driving current loops are substantially equivalent. 5 . The light-emitting device according to claim 4 , wherein capacitances of the plurality of capacitors coincide within a range of ±50% of an average of the capacitances, and wherein distances from the plurality of capacitors to the solid-state light-emitting element coincide within a range of ±50% of an average of the distances. 6 . The light-emitting device according to claim 1 , wherein the plurality of capacitors do not overlap the solid-state light-emitting element and the switch in a plan view of the light-emitting device. 7 . The light-emitting device according to claim 1 , wherein the substrate comprises an upper conductor pattern and a lower conductor pattern, and wherein a first end of the switch and a first end of the solid-state light-emitting element are connected to the upper conductor pattern, a second end of the switch is connected to the lower conductor pattern, and the plurality of capacitors are connected between the upper conductor pattern and the lower conductor pattern. 8 . The light-emitting device according to claim 1 , further comprising: a first conductor pattern connecting a first end of the solid-state light-emitting element and a first end of a first of the plurality of capacitors of the plurality of driving capacitors; and a second conductor pattern connecting the first end of the solid-state light-emitting element and a first end of a second of the plurality of capacitors of the plurality of driving capacitors, wherein the first and second conductor patterns are substantially equal in length. 9 . The light-emitting device according to claim 8 , further comprising: a third conductor pattern connecting a second end of the solid-state light-emitting element and a second end of the first of the plurality of capacitors of the plurality of driving capacitors; and a fourth conductor pattern connecting the second end of the solid-state light-emitting element and a second end of the second of the plurality of capacitors of the plurality of driving capacitors, wherein the third and fourth conductor patterns are substantially equal in length.