Rotation sensor

The invention claimed is: 1. A rotation sensor that detects a rotation state of a rotator based on change of magnetic flux whose direction changes periodically with rotation of the rotator, the rotation sensor comprising: a magnetoelectric conversion unit that converts change of magnetic flux whose direction changes periodically into an electric signal; and a processing unit that processes the electric signal of the magnetoelectric conversion unit, wherein the magnetoelectric conversion unit outputs, as the electric signal, a first detection signal and a second detection signal having the same period and different phases, the processing unit has a first comparison unit that generates a detection threshold and compares the detection threshold and the first detection signal and a second comparison unit that generates a reference threshold and compares the reference threshold and the second detection signal, the second detection signal acts to fall below or exceed the reference threshold only once during a period from a time the first detection signal exceeds the detection threshold to a time the first detection signal falls below the detection threshold and during a period from a time the first detection signal falls below the detection threshold to a time the first detection signal exceeds the detection threshold, the first comparison unit changes a voltage level of the detection threshold when the first detection signal exceeds or falls below the detection threshold, restores the voltage level of the detection threshold when the second detection signal falls below or exceeds the reference threshold only once, and changes the voltage level of the detection threshold when the first detection signal falls below or exceeds the detection threshold of the same voltage level, and the first comparison unit converts the first detection signal into a pulse signal that has a pulse rising edge when the first detection signal exceeds the detection threshold and has a pulse falling edge when the first detection signal falls below the detection threshold of the same voltage level. 2. The rotation sensor according to claim 1 , wherein the first comparison unit has a first threshold, a second threshold lower in voltage level than the first threshold, and a third threshold higher in voltage level than the first threshold, as the detection threshold, the first comparison unit sets the detection threshold from the first threshold to the second threshold when a voltage level of the first detection signal exceeds the first threshold, the first comparison unit sets the detection threshold from the second threshold to the first threshold when a voltage level of the second detection signal falls below or exceeds the reference threshold, the first comparison unit sets the detection threshold from the first threshold to the third threshold when the voltage level of the first detection signal falls below the first threshold, the first comparison unit sets the detection threshold from the third threshold to the first threshold when the voltage level of the second detection signal exceeds or falls below the reference threshold, and thereby the first comparison unit converts the first detection signal into the pulse signal that has the pulse rising edge when the first detection signal exceeds the first threshold and has the pulse falling edge when the first detection signal falls below the first threshold. 3. The rotation sensor according to claim 2 , wherein the first comparison unit has detection switches that determine the detection threshold, the detection switches include a first switch and a second switch, a driven state of the first switch is controlled in accordance with whether the voltage level of the first detection signal falls below or exceeds the detection threshold, and a driven state of the second switch is controlled in accordance with whether the voltage level of the second detection signal falls below or exceeds the reference threshold. 4. The rotation sensor according to claim 3 , wherein the first comparison unit has: a first power source wiring line that connects a power source and a ground; at least three first power source resistors connected in series with the first power source wiring line; a plurality of first ground wiring lines that connect a middle point, located adjacent to the ground, of at least two middle points constituted by at least the three first power source resistors and the ground; and first ground resistors provided respectively on the first ground wiring lines, a potential of a middle point, located adjacent to the power source, of at least the two middle points is the detection threshold, the first switch is provided on one of the first ground wiring lines, and the second switch is provided on a first ground wiring line different from the first ground wiring line where the first switch is provided. 5. The rotation sensor according to claim 2 , wherein the second comparison unit has a fourth threshold and a fifth threshold higher in voltage level than the fourth threshold, as the reference threshold, and has a reference switch that determines the reference threshold, and a driven state of the reference switch is controlled in accordance with whether the voltage level of the second detection signal falls below or exceeds the reference threshold. 6. The rotation sensor according to claim 5 , wherein the second comparison unit has: a second power source wiring line that connects the power source and the ground; at least three second power source resistors connected in series with the second power source wiring line; a second ground wiring line that connects a middle point, located adjacent to the ground, of at least two middle points constituted by at least the three second power source resistors and the ground; and a second ground resistor provided on the second ground wiring line, a potential of a middle point, located adjacent to the power source, of at least the two middle points is the reference threshold, and the reference switch is provided on the second ground wiring line. 7. The rotation sensor according to claim 1 , wherein the first detection signal and the second detection signal have the same amplitude and waveform. 8. The rotation sensor according to claim 7 , wherein the first detection signal and the second detection signal are triangular waves. 9. The rotation sensor according to claim 8 , wherein the first detection signal and the second detection signal have a phase difference of 90 degrees. 10. A rotation sensor that detects a rotation state of a rotator based on change of magnetic flux whose direction changes periodically with rotation of the rotator, the rotation sensor comprising: a magnetoelectric conversion unit that converts change of magnetic flux whose direction changes periodically into an electric signal; and a processing unit that processes the electric signal of the magnetoelectric conversion unit, wherein the magnetoelectric conversion unit outputs, as the electric signal, a first detection signal and a second detection signal having the same waveform and amplitude and having a phase difference of 90 degrees, the processing unit has a first comparison unit that generates a first detection threshold and compares the first detection threshold and the first detection signal, a second comparison unit that generates a second detection threshold and compares the second detection threshold and the second detection signal, and a combination unit that combines respective signals outputted from the first comparison unit and the second comparison unit, the second detection signal acts to fall below or exceed the second detection