Power generating device and sensor system

What is claimed is: 1. A power generating device, comprising: a first magnetostrictive bar; a second magnetostrictive bar extending alongside the first magnetostrictive bar; a joint member coupling the first magnetostrictive bar and the second magnetostrictive bars; and a coil group including a first coil wound around the first magnetostrictive bar and a second coil wound around the second magnetostrictive bar, wherein the first coil and the second coil are connected in series, and when the first and second magnetostrictive bars periodically expand and contract, temporal changes in impedance of the first and second coils, having mutually opposite phases and canceling each other, cause the coil group to have a combined impedance of the first and second coils that is constant in time to enable impedance matching between the power generating device and another circuit. 2. The power generating device according to claim 1 , further comprising a capacitor connected to the coil group in series, wherein a reactance component of combined impedance of the coil group and the capacitor is set to 0. 3. The power generating device according to claim 2 , wherein the real part of the combined impedance is 50Ω. 4. The power generating device according to claim 1 , wherein a plurality of the coil groups are provided in such a way that a plurality of the first coils are provided to the first magnetostrictive bar, and a plurality of the second coils are provided to the second magnetostrictive bar. 5. The power generating device according to claim 4 , wherein the plurality of coil groups are connected in parallel. 6. The power generating device according to claim 1 , further comprising: a permanent magnet connected to the first magnetostrictive bar and the second magnetostrictive bar; and a yoke connected to the permanent magnet, the yoke extending alongside the first magnetostrictive bar and the second magnetostrictive bar. 7. A power generating device, comprising: two power generating elements each including: a first bar made of a magnetostrictive material; a second bar which extends alongside the first bar and is disposed away from the first bar in a first direction; and a coil wound around the first bar, wherein the first directions of the two power generating elements are opposite to each other, and the power generating device further comprising: a coil group made by connecting the coils of each of the power generating elements in series, and when the first and second bars of each of the power generating elements periodically expand and contract, temporal changes in impedance of the coils of each of the power generating elements, having mutually opposite phases and canceling each other, cause the coil group to have a combined impedance of the coils that is constant in time to enable impedance matching between the power generating device and another circuit. 8. A sensor system, comprising: a circuit unit including a sensor; and a power generating device supplying electric power to the circuit unit, wherein the power generating device includes: a first magnetostrictive bar; a second magnetostrictive bar extending alongside the first magnetostrictive bar; a joint member coupling the first magnetostrictive bar and the second magnetostrictive bar; and a coil group including a first coil wound around the first magnetostrictive bar and a second coil wound around the second magnetostrictive bar, wherein the first coil and the second coil are connected in series, and when the first and second magnetostrictive bars periodically expand and contract, temporal changes in impedance of the first and second coils, having mutually opposite phases and canceling each other, cause the coil group to have a combined impedance of the first and second coils that is constant in time to enable impedance matching between the power generating device and another circuit. 9. The sensor system according to claim 8 , wherein the circuit unit includes a communication unit configured to wirelessly transmit a sensor signal outputted from the sensor.