Dynamic wireless power transfer system

What is claimed is: 1. A dynamic wireless power transfer system configured to perform, through a plurality of primary coils installed along a traveling direction of a road and a secondary coil mounted in a vehicle, power transfer to the vehicle while the vehicle is traveling, wherein the system includes a power transmission coil unit and a power receiving coil unit, the power receiving coil unit including the secondary coil which is an M-phase coil including M coils, M denoting an integer which is two or higher, and the M coils of the secondary coil each include a coil end extending along a front-rear direction of the vehicle and a main coil portion extending along a width direction of the vehicle, the M coils each being configured such that a magnetic resistance of a magnetic path where a magnetic flux of the coil end passes is higher than a magnetic resistance of a magnetic path where a magnetic flux of the main coil portion passes, wherein the power receiving coil unit further includes a magnetic yoke, and the magnetic yoke is disposed behind the secondary coil. 2. The dynamic wireless power transfer system according to claim 1 , wherein when the M coils are viewed in a direction perpendicular to a front surface of the magnetic yoke, the coil end is disposed outside the magnetic yoke. 3. The dynamic wireless power transfer system according to claim 2 , wherein the magnetic yoke has a front surface where the M coils are disposed and a back surface opposite to the front surface, the secondary coil includes a magnetic shield disposed on the back surface of the magnetic yoke, the magnetic shield having a larger front surface area than the magnetic yoke, and the coil end is bent outside the magnetic yoke in a direction toward the magnetic shield. 4. The dynamic wireless power transfer system according to claim 2 , wherein the magnetic yoke has a front surface where the M coils are disposed and a back surface opposite to the front surface, the secondary coil is provided with a magnetic shield disposed on the back surface of the magnetic yoke, the magnetic shield having a larger front surface area than the magnetic yoke, and the magnetic shield is bent outside the magnetic yoke in a direction toward the coil end. 5. The dynamic wireless power transfer system according to claim 2 , wherein the M coils are offset from each other in the width direction of the vehicle. 6. The dynamic wireless power transfer system according to claim 1 , wherein the M coils are configured such that respective widths of the coils measured along the width direction of the vehicle are gradually increased in an order of arrangement along the front-rear direction of the vehicle. 7. The dynamic wireless power transfer system according to claim 1 , wherein the M coils are configured such that respective lengths of the coils measured along the front-rear direction of the vehicle are gradually decreased in an order of arrangement along the front-rear direction of the vehicle. 8. The dynamic wireless power transfer system according to claim 1 , wherein the M denotes an integer which is three or higher, and out of the M coils arranged along the front-rear direction of the vehicle, a coil having a specific phase and that is present at an intermediate position has a coil width set less than coil widths of coils having other phases, the coil widths being measured along the width direction of the vehicle. 9. A dynamic wireless power transfer system comprising a wireless power transfer device installed in a road and a vehicle that is to travel on the road, the dynamic wireless power transfer system configured to perform power transfer from the wireless power transfer device to the vehicle while the vehicle is traveling, wherein the system includes a power transmission coil unit and a power receiving coil unit, the power receiving coil unit including a coil which is an M-phase coil including M coils, M denoting an integer which is two or higher, and the M coils of the coil each include a coil end extending along a front-rear direction of the vehicle and a main coil portion extending along a width direction of the vehicle, the M coils each being configured such that a magnetic resistance of a magnetic path where a magnetic flux of the coil end passes is higher than a magnetic resistance of a magnetic path where a magnetic flux of the main coil portion passes, wherein the power receiving coil unit further includes a magnetic yoke, and the magnetic yoke is disposed behind the coil.