Measurement guided oscillation detection for motor protection

What is claimed is: 1. A method comprising: obtaining time-series first electrical quantity data for power supplied from a power supply to a permanent magnet motor (PMM) in an electric submersible pump (ESP) system; determining a threshold defining unacceptable oscillations in the time-series first electrical quantity data based, at least partly, on materials of the ESP; detecting unacceptable oscillations in the time-series first electrical quantity data; and adjusting the power supplied to the PMM based, at least partly, on the detection of unacceptable oscillations in the time-series first electrical quantity data, wherein adjusting the power supplied to the PMM comprises terminating the power supplied to the PMM and adjusting a startup electrical quantity of the power supply that is applied when the power supply resumes supplying the power to the PMM. 2. The method of claim 1 , further comprising: detecting unacceptable oscillations in time-series shaft torque data; and correlating the detected unacceptable oscillations in the time-series shaft torque data to the detected unacceptable oscillations in the time-series first electrical quantity data, wherein adjusting the power supplied to the PMM is also based on a determination that correlated unacceptable oscillations are detected in the time-series first electrical quantity data and the time-series shaft torque data. 3. The method of claim 1 , further comprising: obtaining time-series second electrical quantity data for the power supplied to the PMM; and detecting unacceptable oscillations in the time-series second electrical quantity data, wherein adjusting the power supplied to the PMM is also based on a determination that unacceptable oscillations are detected in the time-series second electrical quantity data. 4. The method of claim 1 , wherein detecting the unacceptable oscillations in the time-series first electrical quantity data comprises inputting the first electrical quantity data into an oscillation detection algorithm. 5. The method of claim 1 , wherein adjusting the power supplied to the PMM comprises adjusting an operational parameter of the power supply. 6. The method of claim 1 , wherein the first electrical quantity data comprises current data or voltage data. 7. The method of claim 1 , further comprising determining whether detected oscillations satisfy a threshold corresponding to unstable operation of the ESP, wherein adjusting the power supplied to the PMM is also based on a determination that the detected oscillations satisfy the threshold. 8. The method of claim 1 , wherein the threshold defining the unacceptable oscillations comprises a range of oscillations of at least one of frequency and magnitude that map to different levels of adjustment. 9. The method of claim 1 , wherein adjusting the power supplied to the PMM occurs during a startup sequence of the PMM. 10. A system comprising: an electric submersible pump (ESP) comprising a permanent magnet motor (PMM) and an ESP shaft; a power supply; a cable that transmits power from the power supply to the PMM; and a surface motor controller having, a first instrument takes first measurements over time of a first electrical quantity of power supplied to the PMM from the power supply; a processor; and a machine-readable medium having instructions stored thereon that are executable by the processor to cause the surface motor controller to, analyze first electrical quantity measurements by the first instrument to detect unacceptable oscillations in the first measurements; determine a threshold to define the unacceptable oscillations in the first measurements based, at least partly, on materials of the ESP; based on the detection of the unacceptable oscillations in the first measurements, determine that the detected unacceptable oscillations exceed the threshold corresponding to instability; and adjust, based on the threshold, the power supply to mitigate the instability, wherein the instructions to adjust the power supply to mitigate the instability comprise instructions to terminate the power supply to the PMM and adjust a startup electrical quantity of the power supply that is applied when the supply of power resumes to the PMM. 11. The system of claim 10 , wherein the instructions further cause the surface motor controller to: analyze shaft torque measurements to detect unacceptable oscillations in the shaft torque measurements; and correlate the detected unacceptable oscillations in the shaft torque measurements to the detected unacceptable oscillations in the first measurements, wherein the instructions to adjust the power supply to mitigate instability is also based on the correlated unacceptable oscillations detected in the first measurements and in the shaft torque measurements. 12. The system of claim 10 , further comprising a second instrument that measures over time second electrical quantity measurements of power supplied to the PMM from the power supply. 13. The system of claim 12 , wherein the machine-readable medium further comprises instructions executable by the processor to cause the surface motor controller to: analyze the second electrical quantity measurements by the second instrument to detect oscillations in the second electrical quantity measurements; determine a threshold to define the oscillations in the second electrical quantity measurements as being unacceptable based, at least partly, on materials of the ESP; and based on detection of unacceptable oscillations in the second electrical quantity measurements, determine that the detected unacceptable oscillations exceed the threshold corresponding to instability in the system, wherein the instructions to adjust the power supply to mitigate the instability are also based on the determination that the detected unacceptable oscillations exceed the threshold. 14. A non-transitory, computer-readable medium having instructions stored thereon that are executable by a computing device to: obtain time-series first electrical quantity data for power supplied from a power supply to a permanent magnet motor (PMM) in an electric submersible pump (ESP) system; determine a threshold defining unacceptable oscillations in the time-series first electrical quantity data based, at least partly, on materials of the ESP; detect unacceptable oscillations in the time-series first electrical quantity data; and adjust the power supplied to the PMM based, at least partly, on the detection of unacceptable oscillations in the time-series first electrical quantity data, wherein the adjustment of the power supplied to the PMM comprises a termination of the power supplied to the PMM and an adjustment of a startup electrical quantity of the power supply that is applied when the power supply resumes the supply of power to the PMM. 15. The non-transitory, computer-readable medium of claim 14 , further comprising instructions to: calculate time-series shaft torque data from at least one of the time-series first electrical quantity data and a time-series second electrical quantity data; and based on a detection of unacceptable oscillations in the time-series shaft torque data, correlate the unacceptable oscillations detected in the time-series shaft torque data to the detected unacceptable oscillations in the time-series first electrical quantity data, wherein the adjustment of the power supplied to the PMM is also based on the correlated unacceptable oscillations detected in the time-series first electrical quantity data and the time-series shaft torque data. 16. The non-transitory, com