Power supply system and power supply device

The invention claimed is: 1. A power supply system comprising a plurality of power supply devices including a first power supply device and a second power supply device, the plurality of power supply devices being parallel-connected to a common load, wherein the first power supply device comprises a calculation unit that calculates control information for controlling voltage or current to be output to the load, a control unit that controls the voltage or current based on the control information calculated by the calculation unit, and a control information transmission unit that transmits the control information calculated by the calculation unit to the second power supply device, wherein the second power supply device comprises a control information reception unit that receives the control information transmitted from the first power supply device, a control unit that controls the voltage or current based on the control information received by the control information reception unit, a current detection unit that detects current output from the second power supply device to the load, and a current information transmission unit that transmits current information indicative of the current detected by the current detection unit to the first power supply device, wherein the first power supply device further comprises a current information reception unit that receives the current information transmitted from the second power supply device, a current detection unit that detects current output from the first power supply device to the load, and a voltage detection unit that detects voltage output from the first power supply device to the load, wherein the calculation unit calculates control information for controlling the voltage current based on the current indicated by the current information received by the current information reception unit, the current detected by the current detection unit and the voltage detected by the voltage detection unit that are included in the first power supply device; wherein the first power supply device and the second power supply device transmit and receive information to and from each other by packet communication method if they output no voltage or no current to the load, and transmit and receive information to and from each other by non-packet communication method for transmitting and receiving a predetermined amount of data if they output voltage or current to the load; and the second power supply device transmits and receives information by non-packet communication method and switches a communication method to a packet communication method if the second power supply device does not receive the control information for a predetermined time period or longer. 2. The power supply system according to claim 1 , wherein each of the first power supply device and the second power supply device includes a display unit for indicating an operating state of each of the devices, the display unit of the first power supply device displays, if the first power supply device is operating, current obtained by summing up the current detected by the first power supply device and the current indicated by the current information received by the current information reception unit and the voltage detected by the voltage detection unit, and the display unit of the second power supply device displays, if the second power supply device is operating, predetermined information. 3. The power supply system according to claim 1 , wherein the control unit of the first power supply device stops operation of the first power supply device if the current information reception unit receives no current information. 4. The power supply system according to claim 1 , wherein the first power supply device further comprises a determination unit that determines whether or not the current indicated by the current information received by the current information reception unit is less than a threshold, and stops operation of the first power supply device if the determination unit determines that the current is less than the threshold. 5. The power supply system according to claim 1 , wherein the second power supply device comprises an abnormality information transmission unit that transmits abnormality information indicative of presence or absence of abnormality for the second power supply device to the first power supply device, and the first power supply device comprises an abnormality information reception unit that receives the abnormality information transmitted from the second power supply device, wherein the control unit of the first power supply device stops operation of the first power supply device depending on the abnormality information received by the abnormality information reception unit. 6. The power supply system according to claim 1 , wherein the plurality of power supply devices supply power to a load concerning arc welding. 7. The power supply system according to claim 1 , wherein each of the power supply devices further comprises an inverter that is for controlling the voltage or current, the control unit controls the voltage current by outputting a pulse signal to the inverter, and the control information transmission unit transmits the control information during an off time period of the pulse signal output by the control unit. 8. The power supply system according to claim 7 , wherein the current information transmission unit transmits current information during the off time period of the pulse signal output by the control unit. 9. A power supply device outputting voltage and current to a load, comprising: a current detection unit that detects current output to the load; a voltage detection unit that detects voltage output to the load; a current information reception unit that receives current information indicative of current output from a different power supply device to the load; a calculation unit that calculates control information for controlling voltage or current to be output to the load based on the current indicated by the current information received by the current information reception unit, the current detected by the current detection unit and the voltage detected by the voltage detection unit; a control unit that controls the voltage or current based on the control information calculated by the calculation unit; and a control information transmission unit that transmits the control information calculated by the calculation unit to the different power supply device; wherein the power supply device and the different power supply device transmit and receive information to and from each other by packet communication method if they output no voltage or no current to the load, and transmit and receive information to and from each other by non-packet communication method for transmitting and receiving a predetermined amount of data if they output voltage or current to the load; and the different power supply device transmits and receives information by non-packet communication method and switches a communication method to a packet communication method if the different power supply device does not receive the control information for a predetermined time period or longer. 10. The power supply device according to claim 9 , further comprising: a current information transmission unit that transmits current information indicative of the current detected by the current detection unit to the different power supply device; a control information reception unit that receives control information transmitted from the different power supply device; and an operation unit that selects between a first control mode based on the control information calculated b