Charging apparatus

The invention claimed is: 1. A charging apparatus that transmits electrical power to a charging target device by electromagnetic induction to charge a secondary battery of the charging target device, the charging apparatus comprising: a power transmission coil; a position detection section that detects a position of a power reception coil of the charging target device placed on the charging apparatus; and a resonant circuit that prevents attenuation of radio waves or a magnetic field generated around the charging apparatus, and wherein: the position detection section comprises coils disposed separately from the power transmission coil in a plurality of rows; the resonant circuit attenuates radio waves or a magnetic field of a predetermined frequency in which the charging target device performs communications with external devices other than the charging apparatus; and the resonant circuit is provided to the coils of the position detection section. 2. The charging apparatus according to claim 1 , wherein the resonant circuit is an LC parallel resonant circuit provided to the plurality of rows of coils, and a resonance frequency of the LC parallel resonant circuit is a frequency that is included in a frequency band of radio waves used by the charging target device for wireless communication. 3. The charging apparatus according to claim 2 , further comprising a resonance frequency variable control circuit that changes a resonance frequency of the LC parallel resonant circuit to a predetermined frequency, wherein the resonance frequency variable control circuit changes the predetermined frequency to a frequency included in a frequency band of radio waves used by the charging target device for wireless communication. 4. The charging apparatus according to claim 3 , wherein the position detection section further comprises a resonance frequency switching circuit that determines the predetermined frequency, and the resonance frequency variable control circuit controls the resonance frequency of the LC parallel resonant circuit in accordance with an instruction from the resonance frequency switching circuit. 5. The charging apparatus according to claim 4 , wherein the resonance frequency switching circuit determines the predetermined frequency in response to switching of an input switch performed by manual operation. 6. The charging apparatus according to claim 2 , further comprising: a near field communication antenna for near field communications between the charging target device and an external device by electromagnetic induction, wherein the near field communication antenna is any one of the plurality of coils of the position detection section. 7. The charging apparatus according to claim 6 , further comprising: a near field communication control section that is to be connected to the near field communication antenna and that executes near field communication between the charging target device and the external device; and a switching section that switches operation between the position detection section and the near field communication control section. 8. The charging apparatus according to claim 4 , wherein the resonance frequency switching circuit includes a function to communicate with the charging target device and determines the predetermined frequency by identifying an ID assigned to each frequency used by the charging target device for wireless communication. 9. The charging apparatus according to claim 1 , further comprising a near field communication antenna for near field communications between the charging target device and an external device by electromagnetic induction, wherein the near field communication antenna is any one of the plurality of coils of the position detection section. 10. The charging apparatus according to claim 9 , further comprising: a near field communication control section that is to be connected to the near field communication antenna and that executes near field communication between the charging target device and the external device; and a switching section that switches operation between the position detection section and the near field communication control section. 11. The charging apparatus according to claim 9 , further comprising: a charging table in which the coils of the position detection section are disposed on an inner surface side of the charging table, and on which the charging target device is to be placed, wherein a length in a short-side direction of the charging table is greater than a length in a short-side direction of the charging target device and is less than a sum of the length in the short-side direction of the charging target device and an interval of the near field communication antenna. 12. The charging apparatus according to claim 11 , wherein the coils of the position detection section are disposed at predetermined intervals in a plurality of rows in a longitudinal direction and a transverse direction of the charging table, and the coil of the position detection section that is the near field communication antenna is disposed at a center in the short-side direction among the plurality of rows of coils of the position detection section.