Head-disk contact detection using a thermal sensor for modulation air bearings

The invention claimed is: 1. A method, comprising: moving a magnetic recording slider relative to a magnetic recording medium; supplying AC power to a heater of the slider to cause oscillation in a spacing between the slider and the medium and to cause the slider to approach the medium; measuring an amplitude of DC response signals produced by a contact sensor of the slider as the slider approaches the medium; measuring an amplitude of a spike in the DC response signals; calculating a ratio between the spike amplitude and the amplitudes of the DC response signals; and detecting contact between the slider and the medium in response to the ratio exceeding a predetermined threshold. 2. The method of claim 1 , wherein: the DC response signals have a measureable range, R; and the amplitude of the spike is measured by subtracting an amplitude of the DC response signals from the range, R. 3. The method of claim 1 , wherein: the amplitudes of the DC response signals are defined as center-to-peak amplitudes; the DC response signals have a measureable range, R; and the amplitude of the spike is measured by subtracting twice the center-to-peak amplitude of the DC response signals from the range, R. 4. The method of claim 1 , further comprising: calculating a trend, T, using calculated ratios for a plurality of heater power steps; de-trending the calculated ratios using the trend, T; and detecting contact between the slider and the medium in response to a de-trended ratio exceeding the predetermined threshold. 5. The method of claim 1 , wherein measuring the amplitude of the DC response signals comprises: calculating an amplitude of a dR/dP curve developed using the DC response signals, where dR is a change in resistance of the contact sensor and dP is a change in heater power; and calculating the ratio comprises calculating the ratio between the spike amplitude and the amplitude of the dR/dP curve. 6. The method of claim 5 , wherein the amplitude of the dR/dP curve comprises the center-to-peak amplitude of the dR/dP curve. 7. The method of claim 1 , further comprising: calculating an amplitude of a dR/dP curve developed using the DC response signals, where dR is a change in resistance of the contact sensor and dP is a change in heater power; detecting a minima of the dR/dP curve; and detecting contact between the slider and the medium in response to either the ratio exceeding the predetermined threshold or detecting the minima of the dR/dP curve. 8. The method of claim 7 , wherein detecting contact in response to the ratio exceeding the predetermined threshold and detecting contact in response to detecting the minima of the dR/dP curve occurs concurrently. 9. The method of claim 7 , wherein detecting contact in response to the ratio exceeding the predetermined threshold and detecting contact in response to detecting the minima of the dR/dP curve occurs sequentially. 10. An apparatus, comprising: a slider configured for writing data to and reading data from a magnetic recording medium, the slider configured for heat-assisted magnetic recording and comprising: a heater configured to receive an AC signal and to cause oscillation in a spacing between the slider and the medium; and a contact sensor situated on the slider and configured to produce a DC response signal; and a detector coupled to the slider and configured to measure an amplitude of a spike in the DC response signal, calculate a ratio between the spike amplitude and an amplitude of the DC response signal, and detect contact between the slider and the medium in response to the ratio exceeding a predetermined threshold. 11. The apparatus of claim 10 , wherein: the DC response signals have a measureable range, R; and the detector is configured to measure the amplitude of the spike by subtracting an amplitude of the DC response signals from the range, R. 12. The apparatus of claim 10 , wherein: the amplitudes of the DC response signals are defined as a center-to-peak amplitudes; the DC response signals have a measureable range, R; and the detector is configured to measure the amplitude of the spike by subtracting twice the center-to-peak amplitude of the DC response signals from the range, R. 13. The apparatus of claim 10 , wherein the detector is configured to calculate a trend, T, using calculated ratios for a plurality of heater power steps, de-trend the calculated ratios using the trend, T, and detect contact between the slider and the medium in response to a de-trended ratio exceeding the predetermined threshold. 14. The apparatus of claim 10 , wherein the detector is configured to: calculate an amplitude of a dR/dP curve developed using the DC response signals, where dR is a change in resistance of the contact sensor and dP is a change in heater power; and calculate the ratio as a ratio between the spike amplitude and the amplitude of the dR/dP curve. 15. The apparatus of claim 14 , wherein the amplitude of the dR/dP curve comprises the center-to-peak amplitude of the dR/dP curve. 16. An apparatus, comprising: a slider configured for writing data to and reading data from a magnetic recording medium, the slider configured for heat-assisted magnetic recording and comprising: a heater configured to receive an AC signal and to cause oscillation in a spacing between the slider and the medium; and a contact sensor situated on the slider and configured to produce a DC response signal; and a detector coupled to the slider and configured to: calculate an amplitude of a dR/dP curve developed using the DC response signals, where dR is a change in resistance of the contact sensor and dP is a change in heater power; measure an amplitude of a spike in the DC response signal; calculate the ratio as a ratio between the spike amplitude and the amplitude of the dR/dP curve; detect a minima of the dR/dP curve; and detect contact between the slider and the medium in response to either the ratio exceeding the predetermined threshold or detecting the minima of the dR/dP curve. 17. The apparatus of claim 16 , wherein the detector is configured to concurrently detect contact in response to the ratio exceeding the predetermined threshold and detect contact in response to detecting the minima of the dR/dP curve. 18. The apparatus of claim 16 , wherein the detector is configured to sequentially detect contact in response to the ratio exceeding the predetermined threshold and detect contact in response to detecting the minima of the dR/dP curve. 19. The apparatus of claim 16 , wherein: the DC response signals have a measureable range, R; and the detector is configured to measure the amplitude of the spike by subtracting an amplitude of the dR/dP curve from the range, R. 20. The apparatus of claim 16 , wherein: the dR/dP curve has an amplitude defined as a center-to-peak amplitude; the DC response signals have a measureable range, R; and the detector is configured to measure the amplitude of the spike by subtracting twice the center-to-peak amplitude of the dR/dP curve from the range, R. 21. The apparatus of claim 16 , wherein the detector is configured to: calculate a trend, T, using calculated ratios for a plurality of heater power steps; de-trend the calculated ratios using the trend, T; and detect contact between the slider and the medium in response to a de-trended ratio exceeding the predetermined threshold.