Circulating-current reducing circuit and transformer unit

What is claimed is: 1. A circulating-current reducing circuit that is connected to a transformer unit to reduce circulating current occurring in the transformer unit, the transformer unit including: a first transformer device having a first primary coil on a primary side thereof, the first primary coil having a first impedance; a second transformer device that is connected to the first transformer device in parallel, the second transformer device having a second primary coil on a primary side thereof, the second primary coil having a second impedance; and a controlling element configured to control supply timing of current to the first primary coil and the second primary coil, the circulating-current reducing circuit comprising: a first circuit that is connected between the first primary coil and a note of the controlling element, the first circuit being connected to the first primary coil in series, the first circuit having a first rectifier element and a first resistance element; and a second circuit that is connected between the second primary coil and the controlling element, the second circuit being connected to the second primary coil in series, the second circuit having a second rectifier element and a second resistance element, wherein the first rectifier element and the first resistance element are connected in parallel to the second rectifier element and the second resistance element, wherein a resistance value of the first rectifier element and the first resistance element is lower than each of the first impedance and the second impedance, and a resistance value of the second rectifier element and the second resistance element is lower than each of the first impedance and the second impedance. 2. The circulating-current reducing circuit according to claim 1 , wherein when the first circuit is disposed upstream of the first primary coil, the second circuit is disposed upstream of the second primary coil, and when the first circuit is disposed downstream of the first primary coil, the second circuit is disposed downstream of the second primary coil. 3. The circulating-current reducing circuit according to claim 1 , wherein the first circuit is a first closed loop circuit by connecting the first rectifier element and the first resistance element in series, and the second circuit is a second closed loop circuit by connecting the second rectifier element and the second resistance element in series. 4. The circulating-current reducing circuit according to claim 3 , wherein the first circuit has a third rectifier element and a third resistance element, the first and third rectifier elements and the first and third resistance elements are alternately connected in series to form the first closed loop circuit, and the second circuit has a fourth rectifier element and a fourth resistance element, the second and fourth rectifier elements and the second and fourth resistance elements are alternately connected in series to form the second closed loop circuit. 5. The circulating-current reducing circuit according to claim 4 , wherein a current rectifying direction of each of the first and second rectifier elements is opposite to a current rectifying direction of each of the third and fourth rectifier elements. 6. A transformer unit comprising: a first transformer device having a first primary coil on a primary side thereof, the first primary coil having a first impedance; a second transformer device that is connected to the first transformer device in parallel, the second transformer device having a second primary coil on a primary side thereof, the second primary coil having a second impedance; a controlling element configured to control supply timing of current to the first primary coil and the second primary coil; a first circuit that is connected between the controlling element and the first primary coil, the first circuit being connected to the first primary coil in series, the first circuit having a first rectifier element and a first resistance element; and a second circuit that is connected between the controlling element and the second primary coil, the second circuit being connected to the second primary coil in series, the second circuit having a second rectifier element and a second resistance element, wherein the first rectifier element and the first resistance element are connected in parallel to the second rectifier element and the second resistance element, wherein a resistance value of the first rectifier element and the first resistance element is lower than each of the first impedance and the second impedance, and a resistance value of the second rectifier element and the second resistance element is lower than each of the first impedance and the second impedance. 7. The transformer unit according to claim 6 , wherein when the first circuit is disposed upstream of the first primary coil, the second circuit is disposed upstream of the second primary coil, and when the first circuit is disposed downstream of the first primary coil, the second circuit is disposed downstream of the second primary coil. 8. The transformer unit according to claim 6 , wherein the first circuit is a first closed loop circuit by connecting the first rectifier element and the first resistance element in series, and the second circuit is a second closed loop circuit by connecting the second rectifier element and the second resistance element in series. 9. The transformer unit according to claim 8 , wherein the first circuit has a third rectifier element and a third resistance element, the first and third rectifier elements and the first and third resistance elements are alternately connected in series to form the first closed loop circuit, and the second circuit has a fourth rectifier element and a fourth resistance element, the second and fourth rectifier elements and the second and fourth resistance elements are alternately connected in series to form the second closed loop circuit. 10. The transformer unit according to claim 9 , wherein a current rectifying direction of each of the first and second rectifier elements is opposite to a current rectifying direction of each of the third and fourth rectifier elements. 11. A circulating-current reducing circuit that is connected to a transformer unit to reduce circulating current occurring in the transformer unit, the transformer unit including: a first transformer device; a second transformer device that is connected to the first transformer device in parallel; and a controlling element that controls timing of supply of current to a first primary coil portion on a primary side of the first transformer device and a second primary coil portion on a primary side of the second transformer device, the circulating-current reducing circuit including: a first circuit that is connected in series only between one end of the first primary coil and a node of the controlling element, the first circuit having a first rectifier element and a first resistance element; and a second circuit that is connected in series only between one end of the second primary coil and the node of the controlling element, the second circuit having a second rectifier element and a second resistance element, wherein the first circuit is a first closed loop circuit by connecting the first rectifier element and the first resistance element in series, and the second circuit is a second closed loop circuit by connecting the second rectifier element and the second resistance element in series, and when the circulating current is generated between the first primary coil and the second primary coil, the first and second rectifier elements are con