System for detection and algorithmic avoidance of isolation failures in electric motors

What is claimed is: 1. A motor monitoring system, comprising: a motor unit comprising a motor housing and a motor arranged within the motor housing, wherein the motor comprises a stator with a plurality of stator poles each having a corresponding phase coil of a plurality of phase coils coupled thereto, wherein each of the plurality of phase coils is coupled to a corresponding phase load path of a plurality of phase load paths that supply a plurality of phase voltages for driving the motor; a plurality of first sensors arranged within the motor housing, wherein the plurality of first sensors are configured to: measure a first characteristic related to partial discharges that occur at one or more of the plurality of phase coils, and generate first sensor data based on the measured first characteristic; and a motor controller configured to generate a plurality of pulse width modulation (PWM) control signals for controlling the plurality of phase voltages, receive the first sensor data from the plurality of first sensors, detect the partial discharges at at least one of the plurality of phase coils based on the first sensor data, and adjust at least one PWM control signal of the plurality of PWM control signals based on the detected partial discharges. 2. The motor monitoring system of claim 1 , wherein the motor controller is configured to adjust a PWM control signal of the plurality of PWM control signals in order to temporarily reduce a voltage slope of a phase voltage at a phase coil at which the partial discharges are detected. 3. The motor monitoring system of claim 1 , wherein the motor controller is configured to adjust a PWM control signal of the plurality of PWM control signals in order to temporarily suspend a phase voltage at a phase coil at which the partial discharges are detected. 4. The motor monitoring system of claim 1 , wherein the plurality of first sensors are microphones configured to measure noise induced by the partial discharges as the measured first characteristic. 5. The motor monitoring system of claim 4 , wherein the motor controller is configured to localize a phase coil from among the plurality of phase coils at which the partial discharges occur based on the measured noise at each of the plurality of first sensors. 6. The motor monitoring system of claim 1 , wherein the plurality of first sensors are pressure sensors configured to measure a pressure induced by the partial discharges as the measured first characteristic. 7. The motor monitoring system of claim 6 , wherein the motor controller is configured to localize a phase coil from among the plurality of phase coils at which the partial discharges occur based on the measured pressure at each of the plurality of first sensors. 8. The motor monitoring system of claim 1 , further comprising: at least one second sensor arranged within the motor housing and configured to measure at least one gas as a second characteristic related to the partial discharges that occur at one or more of the plurality of phase coils and generate second sensor data based on the at least one measured gas, wherein the motor controller is configured to detect the partial discharges at the at least one of the plurality of phase coils based on the second sensor data, and adjust the at least one PWM control signal of the plurality of PWM control signals based on the detected partial discharges. 9. The motor monitoring system of claim 8 , wherein the at least one gas includes ozone gas generated from the partial discharges. 10. The motor monitoring system of claim 8 , further comprising: isolation material arranged at each of the plurality of phase coils in order to isolate each of the plurality of phase coils, wherein the at least one gas includes evaporated isolation material that has evaporated due to the partial discharges. 11. The motor monitoring system of claim 8 , wherein the motor controller is configured to localize a phase coil from among the plurality of phase coils at which the partial discharges occur based on the at least one measured gas. 12. The motor monitoring system of claim 8 , further comprising: isolation material arranged at each of the plurality of phase coils in order to isolate each of the plurality of phase coils, wherein the partial discharges causes the isolation material to weaken, wherein the motor controller is configured to monitor a condition of the isolation material at each of the plurality of phase coils based on the second sensor data and generate an alarm signal on a condition that a degree of damage to the isolation material at at least one of the plurality of phase coils exceeds a threshold damage level. 13. The motor monitoring system of claim 1 , further comprising: isolation material arranged at each of the plurality of phase coils in order to isolate each of the plurality of phase coils, wherein the partial discharges causes the isolation material to weaken, wherein the motor controller is configured to monitor a condition of the isolation material at each of the plurality of phase coils based on the first sensor data and generate an alarm signal on a condition that a degree of damage to the isolation material at at least one of the plurality of phase coils exceeds a threshold damage level. 14. The motor monitoring system of claim 1 , further comprising: an artificial neural network configured to receive the first sensor data from the plurality of first sensors, predict the partial discharges based on the first sensor data to formulate a prediction, and adjust a PWM switching algorithm for the plurality of PWM control signals to reduce a number of occurrences of the partial discharges based on the prediction. 15. A method of monitoring a motor, comprising: supplying, via a plurality of phase load paths, a plurality of phase voltages to a plurality of phase coils for driving the motor, wherein each of the plurality of phase coils is arranged at a corresponding stator pole of a plurality of stator poles and is coupled to a corresponding phase load path of the plurality of phase load paths; measuring, via a plurality of first sensors, a first characteristic related to partial discharges that occur at one or more of the plurality of phase coils; generating, via a plurality of first sensors, first sensor data based on the measured first characteristic; generating, via a motor controller, a plurality of pulse width modulation (PWM) control signals for controlling the plurality of phase voltages; receiving, via the motor controller, the first sensor data from the plurality of first sensors; detecting, via the motor controller, the partial discharges at at least one of the plurality of phase coils based on the first sensor data; and adjusting, via the motor controller, at least one PWM control signal of the plurality of PWM control signals based on the detected partial discharges. 16. The method of claim 15 , wherein adjusting the at least one PWM control signal comprises: adjusting a PWM control signal of the plurality of PWM control signals in order to temporarily reduce a voltage slope of a phase voltage at a phase coil at which the partial discharges are detected. 17. The method of claim 15 , wherein adjusting the at least one PWM control signal comprises: adjusting a PWM control signal of the plurality of PWM control signals in order to temporarily suspend a phase voltage at a phase coil at which the partial discharges are detected. 18. The method of claim 15 , wherein adjusting the at least one PWM control signal comprises: localizing a phase