Optimizing eddy current measurement to save power

What is claimed is: 1. A method for optimizing eddy current measurements comprising: conveying an electromagnetic tool through a borehole; transmitting, from the electromagnetic tool, an excitation signal; monitoring a magnitude of the excitation signal with respect to an error band; and recording an eddy current response to the excitation signal from one or more tubings and casings within the borehole before the excitation signal falls; wherein recording the eddy current response comprises recording the eddy current response based on the excitation signal settling within the error band. 2. The method of claim 1 , wherein recording the eddy current response comprises recording the eddy current response during transmission of the excitation signal. 3. The method of claim 1 , wherein recording the eddy current response comprises activating a receiving coil on the electromagnetic tool during transmission of the excitation signal. 4. A method for optimizing eddy current measurements comprising: conveying an electromagnetic tool through a borehole; transmitting, from the electromagnetic tool, an excitation signal; and recording an eddy current response to the excitation signal from one or more tubings and casings within the borehole before the excitation signal falls; and monitoring a magnitude of the excitation signal with respect to an error band comprising a maximum range of magnitudes between any local maximum magnitude and the next local minimum magnitude, or any local minimum magnitude and the next local maximum magnitude, wherein recording the eddy current response comprises recording the eddy current response based on the excitation signal settling within the error band. 5. The method of claim 4 , further comprising ceasing transmission of the excitation signal after the excitation signal settles within the error band. 6. The method of claim 1 , further comprising recording the eddy current response after a fall time of the excitation signal. 7. The method of claim 1 , further comprising modifying the excitation signal using a ratio of the eddy current response at multiple frequencies. 8. A method for optimizing eddy current measurements comprising: conveying an electromagnetic tool through a borehole; transmitting, from the electromagnetic tool, an excitation signal; monitoring an eddy current response to the excitation signal from one or more tubings and casings within the borehole during transmission of the excitation signal; recording the eddy current response; and modifying the excitation signal based on the eddy current response to save power during transmission of the excitation signal, wherein the modifying the excitation signal comprises omitting one or more frequencies in the excitation signal. 9. The method of claim 8 , wherein monitoring the eddy current response comprises identifying one or more frequencies at which the eddy current response is below a threshold and wherein modifying the excitation signal comprises omitting the one or more frequencies at which the eddy current response is below the threshold from the excitation signal. 10. The method of claim 8 , wherein the excitation signal comprises a zero direct current waveform. 11. The method of claim 8 , wherein monitoring the eddy current response comprises monitoring the magnitude of the excitation signal with respect to an error band comprising a maximum range of magnitudes between any local maximum magnitude and the next local minimum magnitude, or any local minimum magnitude and the next local maximum magnitude, and further comprising recording the eddy current response based on the excitation signal settling within the error band. 12. The method of claim 11 , further comprising ceasing transmission of the excitation signal after the excitation signal settles within the error band. 13. The method of claim 8 , further comprising: transmitting, from the electromagnetic tool, an assessment signal comprising frequency that varies with time; obtaining an eddy current response to the assessment signal from one or more tubings and casings within the borehole; and identifying one or more frequencies at which the eddy current response to the assessment signal is above a threshold; wherein transmitting the excitation signal comprises transmitting the excitation signal comprising only the one or more frequencies at which the eddy current response to the assessment signal is above the threshold. 14. The method of claim 8 , wherein modifying the excitation signal comprises modifying the excitation signal using a ratio of the eddy current response at multiple frequencies.