Electric device identification system, electric device, and electric device identification method

The invention claimed is: 1. An electric device identification system comprising: an electric device comprising: a device load including an inverter circuit and configured to consume electric power supplied from a power supply; a load circuit disposed in parallel with the device load and configured to control electric power supplied to the inverter circuit to improve a power factor in the device load; a controller configured to control electric current flowing in the load circuit, so that an identification signal indicating information for identifying the electric device is superimposed on electric current flowing to the electric device from the power supply; an electric current sensor configured to detect the electric current flowing to the electric device from the power supply; and an identification apparatus configured to identify the electric device based on the identification signal superimposed on the electric current detected by the electric current sensor, wherein the load circuit includes a transistor and a resistor connected in series, the transistor and resistor being connected in parallel with the device load, and the controller is configured to control the electric current flowing in the load circuit by controlling operation of the transistor. 2. The electric device identification system according to claim 1 , wherein: the identification signal has a preamble section of a predetermined pattern, and a data section following the preamble section; and the identification apparatus is configured to detect the preamble section from the electric current detected by the electric current sensor, and when the preamble section is detected, detect from the electric current the data section following the preamble section. 3. The electric device identification system according to claim 1 , wherein: the electric device further comprises a status determiner configured to determine whether or not the operating status of the electric device is in a stable status; and, the controller is configured to execute control for superimposing the identification signal when it is determined by the status determiner that the operating status of the electric device is a stable status. 4. The electric device identification system according to claim 1 , wherein the controller is configured to execute the control for superimposing the identification signal multiple times, for identification signals indicating the same information. 5. An electric device identification system comprising: multiple electric devices, each electric device comprising: a device load configured to consume electric power supplied from a power supply; a load circuit disposed in parallel with the device load; a determiner configured to determine a timing for the start of control for superimposing an identification signal so that control for superimposing the identification signal is contained in one period out of multiple periods partitioned by contiguous equal intervals, the multiple periods being common to the multiple electric devices and the identification signal indicating information for identifying a local electric device among the multiple electric devices; and a controller configured to control electric current flowing in the load circuit, so that the identification signal is superimposed on electric current flowing to the local electric device from the power supply, and the controller being further configured to start control for superimposing the identification signal with the timing determined by the determiner, an electric current sensor configured to detect a total electric current flowing to the multiple electric devices from the power supply, and an identification apparatus configured to identify the multiple electric devices based on the identification signal superimposed on the total electric current detected by the electric current sensor, wherein the load circuit includes a transistor and a resistor connected in series, the transistor and resistor being connected in parallel with the device load, and the controller is configured to control the electric current flowing in the load circuit by controlling operation of the transistor. 6. An electric device comprising: a device load including an inverter circuit and configured to consume electric power supplied from a power supply; a load circuit disposed in parallel with the device load and configured to control electric power supplied to the inverter circuit to improve a power factor in the device load; and a controller configured to control electric current flowing in the load circuit, so that an identification signal indicating information for identifying the electric device is superimposed on electric current flowing to the electric device from the power supply, wherein the load circuit includes a transistor and a resistor connected in series, the transistor and resistor being connected in parallel with the device load, and the controller is configured to control the electric current flowing in the load circuit by controlling operation of the transistor. 7. An electric device identification method comprising: controlling electric current flowing in a load circuit, so that an identification signal indicating information identifying an electric device is superimposed on electric current flowing to the electric device from a power supply, the electric device comprising a device load including the inverter circuit and configured to consume electric power supplied from the power supply, and a load circuit disposed in parallel with the device load and configured to control electric power supplied to the inverter circuit for improving a power factor in the device load; detecting the electric current flowing to the electric device from the power supply; and identifying the electric device, based on the identification signal superimposed on the detected electric current, wherein the load circuit includes a transistor and a resistor connected in series, the transistor and resistor being connected in parallel with the device load, and the controller is configured to control the electric current flowing in the load circuit by controlling operation of the transistor. 8. The electric device identification system according to claim 1 further comprising a transient status detector configured to detect whether or not the inverter circuit is in a transient status, wherein the controller is configured to execute control for superimposing the identification signal when the inverter circuit is detected as not in a transient status by the transient status detector.