Feed unit and feed system for non-contact power transmission

The invention claimed is: 1. A feed unit, comprising: a power transmission section configured to transmit power based on one of a magnetic field or an electric field; a power limiting section on a power supply line from an external power source to the power transmission section, wherein a portion of an input current from the external power source is transmitted to the power transmission section through the power supply line; a control section between a power input terminal of the external power source and the power limiting section, wherein the control section includes a power transmission control section configured to control the transmission of the power; and an operation stop section including a voltage detection section, wherein the voltage detection section is configured to: detect a voltage between an input and an output of the power limiting section, and stop the transmission of the power irrespective of the control by the power transmission control section, based on a magnitude of the detected voltage. 2. The feed unit according to claim 1 , wherein the control section is further configured to transmit. 3. The feed unit according to claim 1 , wherein the operation stop section is further configured to: detect an abnormal state of the feed unit; and stop the transmission of the power based on the detected abnormal state of the feed unit. 4. The feed unit according to claim 3 , wherein the operation stop section is further configured to render a control signal, corresponding to an invalid state of the transmission of the power, to further stop the transmission of the power. 5. The feed unit according to claim 4 , wherein the operation stop section includes a switching section, wherein the switching section is configured to switch a state of the control signal between a valid state and the invalid state based on one of a presence or an absence of the abnormal state. 6. A feed unit, comprising: a power transmission section configured to transmit a first power based on one of a magnetic field or an electric field; a power limiting section on a power supply line from an external power source to the power transmission section; a control section between a power input terminal of the external power source and the power limiting section, wherein the control section includes a power transmission control section configured to control the transmission of the first power; and an operation stop section including a voltage detection section, wherein the voltage detection section is configured to: detect a first voltage between an input and an output of the power limiting section, and stop the transmission of the first power irrespective of the control by the power transmission control section, based on a magnitude of the first voltage. 7. The feed unit according to claim 6 , wherein the operation stop section is further configured to stop the transmission of the first power based on the first voltage that exceeds a first threshold. 8. The feed unit according to claim 7 , wherein the power limiting section is further configured to interrupt a second power supplied to the power transmission section, wherein the interruption is based on the first voltage that exceeds a second threshold, and wherein the second threshold is larger than the first threshold. 9. The feed unit according to claim 8 , wherein the power limiting section includes an error amplifier, and wherein the error amplifier is configured to: control a power limiting operation, based on a potential difference between a reference voltage and a second voltage, wherein the second voltage corresponds to a portion of an input current, and wherein the input current is transmitted from the external power source to the power transmission section, and control a magnitude of the reference voltage to interrupt the second power supplied to the power transmission section, wherein the control of the magnitude is based on the first voltage that exceeds the second threshold. 10. The feed unit according to claim 9 , wherein the power limiting section further includes a transistor on the power supply line, and wherein the power limiting section is configured to: control the magnitude of the reference voltage, and set the transistor to an OFF state to interrupt the second power supplied to the power transmission section. 11. The feed unit according to claim 8 , wherein the first threshold defines that the feed unit is in an overload state, and wherein the second threshold defines that the power transmission section is in one of a failed state or a destructive state. 12. The feed unit according to claim 8 , wherein the operation stop section is in an inoperable state based on the first voltage that exceeds the second threshold. 13. The feed unit according to claim 3 , wherein the power transmission control section is further configured to control the transmission of the power to allow a feeding period and a communication period to be set in a time-divisional manner, wherein the feeding period corresponds to a first time period in which the power is transmitted to a reception unit, wherein the communication period corresponds to a second time period in which the power transmission section communicates with the reception unit, and wherein the operation stop section is further configured to stop the communication based on the abnormal state detected in the communication period. 14. The feed unit according to claim 1 , wherein the power transmission control section is further configured to control the transmission of the power to allow a feeding period during which the power is transmitted to a unit and a communication period during which communication is performed with the unit, to be set in a time-divisional manner, and controls a power limiting operation by the power limiting section during the communication period to allow communication by amplitude modulation. 15. The feed unit according to claim 14 , wherein the power limiting section is further configured to control the power limiting operation during the feeding period, and control an amplitude modification operation during the communication period. 16. The feed unit according to claim 1 , further comprising an AC signal generation section configured to generate an AC signal to transmit the power, wherein the power transmission control section is further configured to control an operation of the AC signal generation section to control the transmission of the power. 17. The feed unit according to claim 16 , wherein the AC signal generation section comprises a switching amplifier, wherein the switching amplifier comprises a switching device, and the power transmission control section is further configured to control, based on a control signal for the transmission of the power, an ON-OFF operation of the switching device. 18. The feed unit according to claim 17 , wherein the power transmission control section is further configured to control the transmission of the power to allow a feeding period during which the power is transmitted to a unit and a communication period during which communication is performed with the unit, to be set in a time-divisional manner, and controls a duty ratio of the control signal during the communication period to allow communication by pulse width modulation. 19. The feed unit according to claim 1 , wherein the power transmission section is further configured to transmit the power based on a resonance operation. 20. A feed system