Load drive device and control method of load drive device

The invention claimed is: 1. A load drive device, comprising: a first switch element; a second switch element; a current and direction detection unit that detects a current flowing through the first switch element in a forward direction and a reverse direction; a current and direction detection unit that detects a current flowing through the second switch element in the forward direction and the reverse direction; a control unit that calculates an average current based on signals from the current and direction detection units; a drive unit that drives the first switch element and the second switch element based on a deviation between the average current and a target current; and a plurality of inductive loads in which one end portions are connected to a common current path of the first switch element and the second switch element, and wirings for another end portions are connected to a common wiring at one point, wherein a reverse current is detected by the current and direction detection unit when the second switch element is turned ON, and a current is continuously monitored even when the average current calculated by the control unit is in a direction reverse to a normal direction. 2. The load drive device according to claim 1 , wherein, even when the average current calculated by the control unit is in a direction reverse to the normal direction, the average current is canceled, and feedback control is continued so as to approach a target current. 3. The load drive device according to claim 1 , wherein the current detected by the current and direction detection unit or the average current calculated by the control unit has an abnormality determination threshold of the common wiring in a current region in a direction reverse to the normal direction, and when the current or the average current exceeds the abnormality determination threshold, it is determined that the common wiring is abnormal, and one inductive load or the plurality of inductive loads are controlled based on an abnormality determination process of the control unit. 4. The load drive device according to claim 3 , wherein the abnormality determination threshold is set in the current region in the direction reverse to the normal direction so as to have a magnitude of a current being a magnitude for operating the inductive load or smaller than the magnitude. 5. The load drive device according to claim 1 , wherein the common wiring is a GND line. 6. The load drive device according to claim 5 , wherein the second switch element is a switch element connected to a low side. 7. The load drive device according to claim 1 , wherein the common wiring is a power supply line. 8. The load drive device according to claim 7 , wherein the second switch element is a switch element connected to a high side. 9. A control method of a load drive device in which a plurality of inductive loads are connected in parallel, the control method comprising: detecting a current value and a current direction of each of the plurality of inductive loads; comparing a detected current value with a predetermined threshold when a detected current direction is a direction reverse to a predetermined current direction; and continuing an operation of the load drive device when the detected current value is smaller than the predetermined threshold. 10. The control method of a load drive device according to claim 9 , wherein the operation of the load drive device is stopped when the detected current value is equal to or larger than the predetermined threshold. 11. The control method of a load drive device according to claim 9 , wherein a current value and a current direction are detected for each of a plurality of switch elements constituting the load drive device. 12. The control method of a load drive device according to claim 9 , wherein opposite sides of the plurality of inductive loads connected to the load drive device are connected to a common wiring, and wherein the common wiring is a GND line. 13. The control method of a load drive device according to claim 9 , wherein opposite sides of the plurality of inductive loads connected to the load drive device are connected to a common wiring, and wherein the common wiring is a power supply line.