Electric shock protection device and mobile electronic apparatus including the same

What is claimed is: 1. An electric shock protection device for connecting between a human body contactable conductor and an internal circuit unit of an electronic device, and passing static electricity by being electrically conducted without causing dielectric breakdown when the static electricity is introduced from the conductor, and blocking a leakage electric current of an external power source by being maintained opened without being electrically conducted when the leakage electric current of the external power source is introduced from a ground of the circuit unit, and wherein the electric shock protection device comprises: a sintered body in which a plurality of sheet layers comprising a protection sheet layer are stacked; at least one pair of internal electrodes spaced apart at a predetermined interval, each internal electrode in a pair of internal electrodes disposed on a different sheet layer of the plurality of sheet layers; a pore defined on the protection sheet layer disposed between the internal electrodes; and a discharging material layer formed in the pore, wherein the discharging material layer comprises a first part coated along an inner wall of the pore to a predetermined thickness along a height direction, the first part having a top end and a bottom end, a second part outwardly extending from the top end of the first part along an upper surface of the protection sheet layer, and a third part outwardly extending from the bottom end of the first part along a lower surface of the protection sheet layer, the second part coming into contact with one internal electrode of the at least one pair of internal electrodes, and the third part coming into contact with another one of the internal electrodes of the at least one pair of internal electrodes. 2. The electric shock protection device of claim 1 , wherein the following formula is satisfied, Vbr>Vin where, Vbr is a breakdown voltage of the electric shock protection device, and Vin is a rated voltage of an external power source of the electronic device; and the rated voltage is a standard rated voltage for each country. 3. The electric shock protection device of claim 1 , wherein the pore is provided in plurality between the pair of internal electrodes. 4. The electric shock protection device of claim 1 , wherein the discharging material layer is made of a nonconductive material including metal particles or a semiconductor material. 5. The electric shock protection device of claim 1 , wherein the sintered body is made of an insulator having a dielectric constant. 6. The electric shock protection device of claim 1 , wherein the internal electrode comprises at least any one component of Ag, Au, Pt, Pd, Ni, and Cu. 7. An electric shock protection device for connecting between a human body contactable conductor and an internal circuit unit of an electronic device, wherein in order to pass static electricity by being electrically conducted without causing dielectric breakdown when the static electricity is introduced from the conductor, and block a leakage electric current of an external power source by being maintained opened without being electrically conducted when the leakage electric current of the external power source is introduced from a ground of the circuit unit, the following formula is satisfied: Vbr>Vin where, Vbr is a breakdown voltage of the electric shock protection device, and Vin is a rated voltage of an external power source of the electronic device, and wherein the electric shock protection device comprises: at least two varistor material layers in which a first varistor material layer and a second varistor material layer are alternately stacked; a plurality of first internal electrodes spaced apart at predetermined intervals (L) on the first varistor material layer; and a plurality of second internal electrodes spaced apart at predetermined intervals (L) on the second varistor material layer. 8. The electric shock protection device of claim 7 , wherein the breakdown voltage (Vbr) is a sum of unit breakdown voltages provided between the first internal electrodes and the second internal electrodes that are the most adjacent thereto. 9. The electric shock protection device of claim 7 , wherein at least portion of each of the first internal electrodes and second internal electrodes is disposed to overlap each other. 10. The electric shock protection device of claim 7 , wherein each of the first internal electrodes and the second internal electrodes is disposed not to be overlapped with each other. 11. The electric shock protection device of claim 7 , wherein a spacing interval (L) between the first internal electrodes or the second internal electrodes is greater than the sum of a shortest distance d 1 between the first internal electrodes and the second internal electrodes and a shortest distance d 2 between the other neighboring first internal electrode and the second internal electrode. 12. The electric shock protection device of claim 7 , wherein the first varistor material layer and the second varistor material layer includes any one of a semiconducting material including one or more of ZnO, SrTiO 3 , BaTiO 3 , and SiC, or any one of a Pr- and Bi-based material. 13. A mobile electronic apparatus having an electric shock protecting function, the apparatus comprising: a human body contactable conductor; a circuit unit; and an electric shock protection device for connecting between the conductor and the circuit unit, and passing static electricity by being electrically conducted without causing dielectric breakdown when the static electricity is introduced from the conductor, and blocking a leakage electric current of an external power source by being maintained opened without being electrically conducted when the leakage electric current of the external power source is introduced from a ground of the circuit unit, wherein the electric shock protection device comprises: a sintered body in which a plurality of sheet layers comprising protection sheet layer are stacked; at least one pair of internal electrodes spaced apart at a predetermined interval, each internal electrode in a pair of internal electrodes disposed on a different sheet layer of the plurality of sheet layers; a pore defined on the protection sheet layer disposed between the internal electrodes; and a discharging material layer formed in the pore, wherein the discharging material layer comprises a first part coated along an inner wall of the pore to a predetermined thickness along a height direction, the first part having a top end and a bottom end, a second part outwardly extending from the top end of the first part along an upper surface of the protection sheet layer, and a third part outwardly extending from the bottom end of the first part along a lower surface of the protection sheet layer, the second part coming into contact with one internal electrode of the at least one pair of internal electrodes, and the third part coming into contact with another one of the internal electrodes of the at least one pair of internal electrodes. 14. The mobile electronic apparatus of claim 13 , wherein the conductor comprises at least one of an antenna for communication of the electronic device with an external device, a metal case, or a conductive accessory. 15. The mobile electronic apparatus of claim 14 , wherein the metal case partially or entirely surrounds a side portion of a housing of the electronic device. 16. The mobile electronic apparatus of claim 14 , wherein the metal case surrounds a camera provided on a front or