High frequency ignition device

What is claimed is: 1. A high frequency ignition device comprising: a high frequency power source; a first device having inductance; a second device which is connected to said first device and has a first capacitance value, wherein the first device and the second device are configured to form a series resonance circuit, and wherein the series resonance circuit includes a connection portion between said first device and said second device; a discharge gap composed of a high voltage electrode and a grounding electrode; and a shield device which covers the connection portion, wherein the shield device is connected to a ground and wherein the shield device is configured so that an electric field strength leaked outside the insulating substance does not exceed 4 megavolts/meter, said high frequency power source configured to supply AC power to said discharge gap by using the series resonance circuit and thereby ignite fuel by a discharge plasma generated in said discharge gap, wherein the shield device is configured to limit an electric field strength on an outside of a package, and wherein a second capacitance value associated with electrical coupling between said connection portion and said shield device is configured to not substantially decrease a flow of power to the discharge gap, wherein at least said first device, said second device, said connection portion, and said shield device are arranged in the package, wherein the package is sealed with an insulating substance, and wherein the insulating substance prevents an unnecessary corona associated with the connection portion from weakening the discharge plasma. 2. The high frequency ignition device according to claim 1 , wherein said high voltage electrode is also arranged in the package and is sealed with the insulating substance. 3. The high frequency ignition device according to claim 1 , wherein the second capacitance value associated with electrical coupling between said connection portion and said shield device is less than the first capacitance value of said second device. 4. The high frequency ignition device according to claim 1 , wherein said shield device is connected to the ground and includes a metal plate configured to shield an electric field; and said metal plate is a punched metal structure having a plurality of holes. 5. The high frequency ignition device according to claim 1 , wherein said shield device is connected to the ground and includes a metal plate configured to shield an electric field; and said metal plate is a net-like structure having a plurality of holes. 6. The high frequency ignition device of claim 1 , wherein the connection portion is surrounded by a first portion of the insulating substance, the shield device is disposed between the first portion of the insulating substance and a second portion of the insulating substance, and wherein the connection portion, the first portion of the insulating substance, and the shield device are within a case. 7. The high frequency ignition device of claim 1 , wherein the insulating substance excludes air from the package so as to prevent formation of the unnecessary corona due to a voltage associated with the connection portion, whereby a damage to a case due to the unnecessary corona is prevented. 8. The high frequency ignition device of claim 1 , wherein the insulating substance excludes air from a case so as to prevent, outside the discharge gap, a formation of the unnecessary corona, and wherein a corona formed mainly in a direction toward the grounding electrode is promoted, thereby improving the discharge plasma. 9. A high frequency ignition device comprising: a high frequency power source; a first device having inductance; a discharge gap composed of a high voltage electrode and a grounding electrode; and a shield device which covers a connection portion between said first device and said high voltage electrode and is connected to a ground, wherein the shield device is configured to provide a capacitance coupled to the first device, wherein the first device and the capacitance are configured to form a resonance circuit, and wherein the resonance circuit includes the connection portion, and wherein the shield device is configured so that an electric field strength leaked outside the insulating substance does not exceed 4 megavolts/meter, wherein said high frequency power source is configured to supply AC power to said discharge gap by using the resonance circuit and to ignite fuel based on a discharge plasma generated in said discharge gap, wherein the shield device is configured to limit an electric field strength on an outside of a package, and wherein a capacitance value of the shield device is configured to not substantially decrease a flow of power to the discharge gap, wherein at least said first device, said connection portion, and said shield device are arranged in the package, wherein the package is sealed with an insulating substance, and wherein the insulating substance prevents an unnecessary corona associated with the connection portion from weakening the discharge plasma. 10. The high frequency ignition device of claim 9 , wherein the connection portion is surrounded by a first portion of the insulating substance, the shield device is disposed between the first portion of the insulating substance and a second portion of the insulating substance, and wherein the connection portion, the first portion of the insulating substance, and the shield device are within a case. 11. A high frequency ignition device comprising: an ignition plug which includes a first electrode and a second electrode facing each other across a gap, wherein the ignition plug is configured to generate a spark discharge in said gap to ignite a combustible fuel-air mixture in a combustion chamber of an internal combustion engine; an ignition coil configured to generate a high voltage, and configured to supply the generated high voltage to said first electrode via a high voltage terminal to generate the spark discharge in said gap to form a conductive path in said gap; a capacitor which is connected to said high voltage terminal of said ignition coil, and is configured to prevent passing of the high voltage; an inductor which is connected to said capacitor, and constitutes, together with said capacitor, a series resonance circuit, wherein the series resonance circuit is configured to pass only a predetermined frequency component, and wherein the series resonance circuit includes a connection portion between said inductor and said capacitor; an energy supply device configured to supply AC energy to the conductive path by the spark discharge formed in said gap via said series resonance circuit, wherein a conductive shield device is configured to limit an electric field strength on an outside of a package, and wherein a second capacitance value associated with electrical coupling between said connection portion and said conductive shield device is configured to not substantially decrease a flow of power to the discharge gap; and the conductive shield device, wherein the conductive shield device is configured to shield the connection portion, wherein the conductive shield device is connected to a ground, and wherein the conductive shield device is configured so that an electric field strength leaked outside the insulating substance does not exceed 4 megavolts/meter, wherein said inductor, said capacitor, and said conductive shield device are arranged in the package, wherein the package is sealed with an insulating substance, and wherein the insulating substance prevents an unnecessary corona associated with the connection portion from weakening the spark discharge.