Adapter, and vehicle and method for performing power feeding using adapter

The invention claimed is: 1. An adapter used for supplying electric power from a power source of an externally chargeable vehicle to an electrical device that is external to the vehicle using a charging cable, the power source including a power storage device, the vehicle using electric power supplied from an external power supply through the charging cable to charge the power storage device, the adapter comprising: a first connector configured to connect to a power plug of the charging cable, which allows for electrical power from the power source of the vehicle to be supplied to the electrical device; a second connector electrically connected to the first connector, the second connector being configured to connect to a power plug of the electrical device; and a processor configured to generate a signal instructing power feeding based on a connection between the adapter and the charging cable, wherein in response to the signal instructing power feeding, the vehicle supplies the electric power from the power source to the electrical device through the charging cable connected to the vehicle, the vehicle includes: (i) a power conversion device configured to convert the electric power from the power source to supply the converted electric power to the charging cable, and (ii) a first control device configured to control power conversion device, and the charging cable includes a second control device configured to transmit and receive a signal to and from the first control device. 2. The adapter according to claim 1 , wherein by connection between the adapter and the charging cable, the processor supplies, to the second control device, a signal showing the connection between the adapter and the charging cable to cause the second control device to output the signal instructing power feeding to the first control device, and in response to the signal instructing power feeding, the first control device drives the power conversion device to supply the electric power from the power source to the electrical device. 3. The adapter according to claim 2 , wherein the processor changes a potential of a signal path connected to the second control device to supply the signal showing the connection between the adapter and the charging cable to the second control device. 4. The adapter according to claim 3 , wherein the processor includes a resistor and electrically connects the signal path to a ground through the resistor by connection between the adapter and the charging cable. 5. The adapter according to claim 3 , wherein processor includes a switch and electrically connects the signal path to a ground via the switch by connection between the adapter and the charging cable. 6. The adapter according to claim 3 , wherein the charging cable includes a switching unit configured to switch between conduction and non-conduction between the signal path and a ground, and the processor includes an operation member configured to allow a conducting state of the switching unit to be changed by connection between the adapter and the charging cable. 7. The adapter according to claim 6 , wherein the switching unit is a switch, the switch is in a conducting state in a state where the adapter and the charging cable are not connected, and the operation member brings the switch into a non-conducting state by connection of the adapter to the charging cable. 8. The adapter according to claim 2 , wherein the processor outputs, to the second control device, a signal responding to reception of a signal transmitted from the second control device using a pair of power transmission paths in the charging cable as a signal showing connection between the adapter and the charging cable, to cause the second control device to output the signal instructing power feeding to the first control device. 9. The adapter according to claim 8 , wherein the processor includes a bypass circuit configured to: (i) branch a part of a high frequency signal transmitted from the second control device to one of the pair of power transmission paths, and (ii) output the branched signal to the second control device. 10. The adapter according to claim 8 , wherein the processor includes a filter circuit configured to cause a high frequency signal transmitted from the second control device to one of the pair of power transmission paths to pass through the other of the power transmission paths. 11. The adapter according to claim 2 , wherein the signal instructing power feeding is output from the second control device to the first control device, the signal instructing power feeding utilizing a pilot signal used for transmitting information about a current capacity of the charging cable, when performing external charging. 12. The adapter according to claim 11 , wherein the signal instructing power feeding is output using a frequency different from a frequency of the pilot signal used during external charging. 13. The adapter according to claim 11 , wherein the signal instructing power feeding is output using a potential different from a potential of the pilot signal used during external charging. 14. The adapter according to claim 1 , wherein by connection between the adapter and the charging cable, the processor outputs the signal instructing power feeding to the control device through a signal line included in the charging cable, and in response to the signal instructing power feeding, the control device drives the power conversion device to supply the electric power from the power source to the electrical device. 15. The adapter according to claim 14 , wherein the processor outputs, to the control device, a signal responding to reception of a signal transmitted from the control device through a pair of power transmission paths of the charging cable as the signal instructing power feeding. 16. A vehicle externally chargeable using electric power that is supplied from an external power supply using a charging cable to charge a power storage device mounted in the vehicle, the power storage device being configured to feed electric power to an external electrical device by connection of an adapter to the charging cable, the adapter including: a first connector configured to connect to a power plug of the charging cable, which allows for electrical power from the power source of the vehicle to be supplied to the electrical device, and a second connector electrically connected to the first connector, the second connector being configured to connect to a power plug of the electrical device, the vehicle comprising: a power source including the power storage device; an inlet configured to connect to the charging cable during external charging; a power conversion device configured to convert electric power from the power source to supply the converted electric power to the inlet; and a first control device configured to control the power conversion device, wherein in response to reception of a signal instructing power feeding that is generated by connection between the adapter and the charging cable, the first control device drives the power conversion device to supply the electric power from the power source to the electrical device, and the charging cable includes a second control device configured to transmit and receive a signal to and from the first control device. 17. The vehicle according to claim 16 , wherein the power source further includes: an internal combustion engine, and a rotating electric machine configured to be driven by the internal combustion engine to generate electric power, and the electric power generate