Power transmission device

What is claimed is: 1. A power transmission device comprising: a first power transmitter; and a second power transmitter, wherein the first power transmitter includes a first primary side resonance coil configured to receive power from an AC power source, a first phase difference detection unit configured to detect a first phase difference between a phase of a first current flowing to the first primary side resonance coil and a phase of a first voltage supplied to the first primary side resonance coil, a first variable capacitance unit provided at the first primary side resonance coil, and a first control unit configured to adjust a first capacitance of the first variable capacitance unit such that a resonance frequency is attained, based on a variation degree of the first phase difference with respect to a variation of the first capacitance when the first capacitance is varied, and wherein the second power transmitter includes a phase adjustment unit connected to the AC power source, a second primary side resonance coil configured to receive power from the AC power source via the phase adjustment unit, the second primary side resonance coil being arranged beside the first primary side resonance coil, a second phase difference detection unit configured to detect a second phase difference between a phase of a second current flowing to the second primary side resonance coil and a phase of a second voltage supplied to the second primary side resonance coil, a second variable capacitance unit provided at the second primary side resonance coil, and a second control unit configured to adjust a second capacitance of the second variable capacitance unit such that a resonance frequency is attained, based on a variation degree of the second phase difference to a variation of the second capacitance when the second capacitance is varied, and wherein the first control unit adjusts the resonance frequency of the first power transmitter in a state where the second power transmitter is off, and the second control unit adjusts the resonance frequency of the second power transmitter in a state where the first power transmitter is off. 2. The power transmission device according to claim 1 , wherein the first control unit and the second control unit respectively control on/off of the first power transmitter and the second power transmitter, the first control unit causes the second control unit to turn off the second power transmitter when the first control unit adjusts the resonance frequency of the first power transmitter, and the second control unit causes the first control unit to turn off the first power transmitter when the second control unit adjusts the resonance frequency of the second power transmitter. 3. The power transmission device according to claim 2 , wherein the first control unit adjusts the resonance frequency of the first power transmitter in a state where the first control unit has caused the second control unit to turn off output from the second power transmitter, and the second control unit adjusts the resonance frequency of the second power transmitter in a state where the second control unit has caused the first control unit to turn off output from the first power transmitter. 4. The power transmission device according to claim 1 , wherein the first control unit adjusts the resonance frequency of the first power transmitter in a state where the first control unit has caused the second control unit to turn off output from the second power transmitter, until a first difference between a first capacitance set by a present adjustment process and a first capacitance set by a previous adjustment process becomes less than or equal to a predetermined value as an absolute value, the second control unit adjusts the resonance frequency of the second power transmitter in a state where the second control unit has caused the first control unit to turn off output from the first power transmitter, until a second difference between a second capacitance set by a present adjustment process and a second capacitance set by a previous adjustment process becomes less than or equal to a predetermined value as an absolute value, and the first control unit and the second control unit respectively end a process of adjusting the resonance frequency of the first power transmitter and the second power transmitter, when the first difference and the second difference both become less than or equal to the predetermined value as an absolute value. 5. The power transmission device according to claim 2 , further comprising: a first switch inserted between the AC power source and the first primary side resonance coil, wherein a connection state of the first switch is switched by the first control unit; and a second switch inserted between the AC power source and the second primary side resonance coil, wherein a connection state of the second switch is switched by the second control unit, wherein the first control unit adjusts the resonance frequency of the first power transmitter in a state where the second power transmitter is turned off by causing the second control unit to switch the second switch into a non-conductive state, and the second control unit adjusts the resonance frequency of the second power transmitter in a state where the first power transmitter is turned off by causing the first control unit to switch the first switch into a non-conductive state. 6. The power transmission device according to claim 1 , wherein the power transmission device transmits power by fixing the first capacitance of the first variable capacitance unit and the second capacitance of the second variable capacitance unit, after the adjustment of the resonance frequency of the first power transmitter and the adjustment of the resonance frequency of the second power transmitter have been completed. 7. The power transmission device according to claim 1 , wherein the first power transmitter further includes a first primary side coil configured to receive power from the AC power source, the first primary side coil being provided between the AC power source and the first primary side resonance coil, wherein the first primary side resonance coil receives power from the first primary side coil by electromagnetic induction, and wherein the second power transmitter further includes a second primary side coil connected to the AC power source via the phase adjustment unit, wherein the second primary side resonance coil receives power from the second primary side coil by electromagnetic induction.