Contactless power transmission device

The invention claimed is: 1. A contactless power transmission device comprising: an AC power supply that outputs an AC power; a primary coil to which the AC power is inputted; a secondary coil that receives the AC power from the primary coil in a contactless manner; and a variable load that varies an impedance in accordance with an inputted power, wherein the AC power supply is configured to output a first AC power and a second AC power that differs in magnitude to each other as the AC power, wherein a power transmission line between the AC power supply and the variable load includes a first line and a second line different from the first line, and wherein the contactless power transmission device further comprises: a switching unit that switches the power transmission line so that a first power is transmitted through the first line when the AC power supply outputs the first AC power and so that a second power is transmitted through the second line when the AC power supply outputs the second AC power; and an impedance conversion unit arranged on the second line that converts an impedance from an output of the AC power supply to the variable load when the second power is transmitted through the second line to approach an impedance from the output of the AC power supply to the variable load when the first power is transmitted through the first line. 2. The contactless power transmission device according to claim 1 , wherein the impedance conversion unit includes a switching element, and the impedance conversion unit adjusts at least one of a duty ratio and a cycle of a switching operation of the switching element to convert the impedance. 3. The contactless power transmission device according to claim 1 , wherein the secondary coil and the variable load are mounted on a vehicle, the contactless power transmission device further comprises a rectifying unit that rectifies the AC power received by the secondary coil to a DC power, the variable load is a vehicle battery that is charged by receiving the DC power rectified by the rectifying unit. 4. The contactless power transmission device according to claim 3 , wherein the first power is a power that corresponds to a maximum power capable of being supplied to the vehicle battery. 5. The contactless power transmission device according to claim 1 , satisfying at least one of conditions as follows: a frequency of use of the first power is higher than a frequency of use of the second power; and a time period during which the first power is supplied is relatively longer than a time period during which the second power is supplied. 6. The contactless power transmission device according to claim 1 , wherein the impedance conversion unit is arranged between the secondary coil and the variable load in the second line. 7. The contactless power transmission device according to claim 2 , wherein the contactless power transmission device further comprises a rectifying unit that rectifies the AC power received by the secondary coil to a DC power, the impedance conversion unit is a DC/DC converter that converts the DC power rectified by the rectifying unit by the switching operation.