Rotation detecting device

The invention claimed is: 1. A rotation detecting device configured to be used with a switch and detect rotation of a rotation shaft having a magnetic body attached thereto, the rotation detecting device comprising: a magneto-resistive element facing the magnetic body and outputting a first signal related to displacement of the magnetic body; a Hall element facing the magnetic body and outputting a second signal related to displacement of the magnetic body; and a detection circuit having the first signal and the second signal input thereto, wherein the detection circuit is configured to: output the first signal while the switch is turned on; detect rotation-number information corresponding to the number of rotations of the rotation shaft based on the second signal at a first time point at which the switch is turned off; store the rotation-number information; and output the stored rotation-number information at a second time point when the switch is turned on after the first time point. 2. The rotation detecting device according to claim 1 , wherein the Hall element includes a first Hall element and a second Hall element, and wherein the detection circuit detects the rotation-number information based on a first pulse signal obtained by binarizing an output of the first Hall element and a second pulse signal obtained by binarizing an output of the second Hall element. 3. The rotation detecting device according to claim 1 , wherein the detection circuit is configured to: detect absolute-angle information indicating an angle of the magnetic body at the second time point based on the first signal output from the magneto-resistive element; and output the stored rotation-number information and the absolute-angle information simultaneously. 4. The rotation detecting device according to claim 1 , wherein the detection circuit includes: a first oscillator that generates a first internal clock; and a second oscillator that generates a second internal clock having a frequency different from a frequency of the first internal clock. 5. The rotation detecting device according to claim 4 , wherein, when the switch is turned off, the detection circuit is configured to stop energizing the first oscillator and to continuously energize the second oscillator. 6. The rotation detecting device according to claim 4 , wherein the detection circuit further includes: a first regulator that supplies a first potential to the first oscillator, and a second regulator that supplies a second potential to the second oscillator. 7. The rotation detecting device according to claim 6 , wherein the detection circuit further includes a third regulator that supplies a potential to the magneto-resistive element. 8. The rotation detecting device according to claim 6 , wherein the first regulator supplies the first potential to the Hall element and the first oscillator. 9. The rotation detecting device according to claim 4 , wherein the frequency of the second internal clock is lower than the frequency of the first internal clock. 10. A rotation detecting device comprising: a magneto-resistive element; a Hall element; and a detection circuit having a signal from the magneto-resistive element and a signal from the Hall element input thereto, wherein the detection circuit includes: a first oscillator that generates a first internal clock, a first regulator that supplies a first potential to the first oscillator; a second oscillator that generates a second internal clock; a second regulator that supplies a second potential to the second oscillator; and a third regulator that supplies a third potential to the magneto-resistive element. 11. The rotation detecting device according to claim 10 , wherein the first regulator supplies the first potential to the Hall element and the first oscillator. 12. The rotation detecting device according to claim 10 , wherein a frequency of the second internal clock is lower than a frequency of the first internal clock. 13. The rotation detecting device according to claim 10 , wherein the detection circuit is configured to: process a signal from the magneto-resistive element and a signal from the Hall element based on the first internal clock; and process a signal from the Hall element based on the second internal clock. 14. A rotation detecting device comprising: a magneto-resistive element; a Hall element; and a detection circuit having a signal from the magneto-resistive element and a signal from the Hall element input thereto, wherein the detection circuit includes; a first oscillator that generates a first internal clock; and a second oscillator that generates a second internal clock having a frequency different from a frequency of the first internal clock. 15. The rotation detecting device according to claim 14 , wherein the detection circuit further includes: a first regulator that supplies a first potential to the Hall element and the first oscillator, and a second regulator that supplies a second potential to the second oscillator. 16. The rotation detecting device according to claim 14 ; wherein the frequency of the second internal clock is lower than the frequency of the first, internal clock. 17. The rotation detecting device according to claim 14 , wherein the detection circuit is configured to: process a signal from the magneto-resistive element and a signal from the Hall element based on the first internal clock; and process a signal from the Hall element based on the second internal clock.