Lumped-parameter thermal model of a write transducer for clearance control on magnetic recording device

What is claimed is: 1. A method comprising: determining a lumped-parameter function δ that represents an average power dissipated by a write transducer when writing a signal to a magnetic recording medium, parameters of the function δ including write current I w , overshoot amplitude O 3 , overshoot duration O d , and frequency f; measuring temperatures of the write transducer while varying the parameters to determine constants of the function δ; and using the function δ to adjust power applied to a clearance control heater when writing to the magnetic recording medium. 2. The method of claim 1 , wherein function δ is of the form c 0 +c 1 I w 2 f+c 2 O a 2 O d f+c 3 I w O a O d f+c 4 I w 2 , wherein c 0 , c 1 , c 2 , c 3 , c 4 are the constants. 3. The method of claim 1 , wherein the function δ represents a power applied to the clearance heater that will produce a same amount of protrusion as the write transducer when a predetermined combination of the parameters are applied to the write transducer when writing. 4. The method of claim 1 , wherein measuring temperatures of the write head while varying the parameters comprises: defining a plurality of sets of the parameters; and for each set of the sets, writing using the parameters of the set and finding an equivalent power δ i of the clearance control heater with the writer on that produces the same measured temperature of the write transducer with the writer off. 5. The method of claim 4 , wherein determining the constants of the function comprise performing a curve fit of the δ i found for the plurality of sets. 6. The method of claim 1 , further comprising determining a conversion factor based on a first heater power that causes head-media contact with the writer on using a predetermined value of δ and a second heater power that causes the head-media contact with the writer off, the function δ multiplied by the conversion factor when adjusting power applied to the clearance control heater. 7. The method of claim 1 , wherein the temperatures of the write transducer are measured via a differential-ended, temperature coefficient of resistance sensor embedded in a read/write head that includes the write transducer. 8. The method of claim 1 , wherein δ is also a function of rise time of the signal. 9. An apparatus comprising: interface circuitry configured to communicate with a write transducer and a temperature sensor of a write head; and a controller coupled to the interface circuitry and configured to: determine a lumped-parameter function δ that represents an average power dissipated by the write transducer when writing a signal to a magnetic recording medium, parameters of the function δ including write current I w , overshoot amplitude O a , overshoot duration O d , and frequency f; via the temperature sensor, measure temperatures of the write transducer while varying the parameters to determine constants of the function δ; and use the function δ to adjust power applied to a clearance control heater when writing to the magnetic recording medium. 10. The apparatus of claim 9 , wherein function δ is of the form c 0 +c 1 I w 2 f+c 2 O a 2 O d f+c 3 I w O a O d f+c 4 I w 2 , wherein c 0 , c 1 , c 2 , c 3 , are the constants. 11. The apparatus of claim 9 , wherein the function δ represents a power applied to the clearance heater that will produce a same amount of protrusion as the write transducer when a predetermined combination of the parameters are applied to the write transducer when writing. 12. The apparatus of claim 9 , wherein measuring temperatures of the write head while varying the parameters comprises: defining a plurality of sets of the parameters; and for each set i of the sets, writing using the parameters of the set and finding an equivalent power δ i of the clearance control heater with the writer on that produces the same measured temperature of the write transducer with the writer off. 13. The apparatus of claim 12 , wherein determining the constants of the function comprise performing a curve fit of the δ i found for each set of the parameters. 14. The apparatus of claim 9 , wherein the controller is further configured to determine a conversion factor based on a first heater power that causes head-media contact with the writer on using a predetermined value of δ and a second heater power that causes the head-media contact with the writer off, the function δ multiplied by the conversion factor when adjusting power applied to the clearance control heater. 15. The apparatus of claim 9 , wherein the temperature sensor comprises a differential-ended, temperature coefficient of resistance sensor embedded in a read/write head that includes the write transducer. 16. A method comprising: defining a plurality of unique sets of parameters, the parameters corresponding to values applied to a write transducer, the parameters comprising write current I w , overshoot amplitude O a , overshoot duration O d , and frequency f; for each unique set: measuring a target temperature of the write transducer with a clearance heater turned on and the writer turned off; and while writing: applying the values of the set to the write transducer; and determining a target power applied to the clearance heater that results in the target temperature being measured, the target power used to determine an equivalent clearance heater power δ i that produces an equivalent protrusion as produced by the write transducer with the values of the set applied; performing a curve fit of the δ i found for the plurality of sets to determine a lumped-parameter function δ of the parameters; and using the function δ to adjust power applied to the clearance control heater when writing to a magnetic recording medium. 17. The method of claim 16 , wherein function δ is of the form c 0 +c 1 I w 2 f+c 2 O a 2 O d f+c 3 I w O a O d f+c 4 I w 2 , wherein c 0 , c 1 , c 2 , c 3 , c 4 are the constants. 18. The method of claim 16 , further comprising determining a conversion factor based on a first heater power that causes head-media contact with the writer on using a predetermined value δ q of the function δ and a second heater power that causes the head-media contact with the writer off the function δ multiplied by the conversion factor when adjusting power applied to the clearance control heater. 19. The method of claim 16 , wherein the temperatures of the write transducer are measured via a differential-ended, temperature coefficient of resistance (DETCR) sensor embedded in a read/write head that includes the write transducer. 20. The method of claim 19 , wherein the DETCR sensor comprises a DC DETCR, and wherein determining the target power applied to the clearance heater when writing comprises performing two temperature measurements at opposite bias polarities applied to the DC DETCR, the two temperature measurements being averaged and the averaged value used to determine if the target temperature is being measured.