Use of voltage probe to measure high voltage amplitude and phase to improve on-line bushing monitoring relevance

1 . A bushing system, comprising: a bushing monitor configured to monitor on-line operation of a capacitive-core bushing with a test tap, wherein the bushing monitor comprises a processor operatively coupled to a memory, wherein the processor is configured to: access a voltage signal received indicating a measured voltage amplitude of the bushing; access a current signal received indicating a measured current amplitude of the bushing; determine a capacitance value of the bushing based on the measured voltage amplitude and the measured current amplitude; and generate a resultant signal or output based on the capacitance value of the capacitive-core bushing. 2 . The bushing system of claim 1 , comprising a voltage sensor configured to transmit the voltage signal indicating the measured voltage amplitude. 3 . The bushing system of claim 2 , comprising a case configured to attach the voltage sensor to a main lead of the capacitive-core bushing. 4 . The bushing system of claim 1 , wherein the capacitance value is determined based on the measured current amplitude divided by the measured voltage amplitude. 5 . The bushing system of claim 1 , comprising a current sensor configured to transmit the measured current amplitude based on signals from the test tap of the capacitive-core bushing. 6 . The bushing system of claim 1 , wherein the resultant signal comprises an analog signal, a digital signal, or any combination thereof. 7 . The bushing system of claim 1 , wherein the resultant signal is based on a health assessment of the capacitive-core bushing. 8 . The bushing system of claim 1 , wherein the bushing monitor is configured to monitor a single bushing as the capacitive-core bushing 9 . A bushing system, comprising: a bushing monitor configured to monitor on-line operation of a capacitive-core bushing with a test tap, wherein the bushing monitor comprises a processor operatively coupled to a memory, wherein the processor is configured to: access a voltage signal received indicating a measured voltage phase of the bushing; access a current signal received indicating a measured current phase of the bushing; determine a power factor value of the bushing based on the measured voltage phase and the measured current phase; and generate a resultant signal or output based on the power factor value of the bushing. 10 . The bushing system of claim 9 , comprising a voltage sensor configured to measure a voltage phase of the bushing as the measured voltage phase 11 . The bushing system of claim 10 , comprising a case configured to attach the voltage sensor to a main lead. 12 . The bushing system of claim 9 , comprising a current sensor configured to measure current through a test tap of the bushing as the measured current phase. 13 . The bushing system of claim 12 , wherein the bushing monitor is configured to determine the power factor value by using a single phase of a system. 14 . The bushing system of claim 9 , wherein the processor is configured to determine the power factor value of the bushing by determining the cosine of the angle between the measured voltage phase and the measured current phase. 15 . The bushing system of claim 9 , wherein the power factor value is related to the power factor, the dissipation factor, the angle between the measured voltage phase and the measured current phase, or any combination thereof of the bushing. 16 . The bushing of claim 9 , wherein the bushing monitor is configured to monitor a single bushing as the bushing. 17 . The bushing of claim 9 , wherein the bushing monitor comprises a communication interface configured to transmit the resultant signal to a workstation. 18 . A method, comprising: accessing, via a processor, signals received from a voltage sensor indicating a measured voltage amplitude and a measured voltage phase of a bushing during operation; accessing, via the processor, signals from a current sensor indicating a measured current amplitude and a measured current phase of the bushing; determining, via the processor, a capacitance value and a power factor value of the bushing, wherein the capacitance value is based on the measured voltage amplitude and the measured current amplitude, wherein the power factor value is based on the measured voltage phase and the measured current phase; and generating, via the processor, a resultant signal or output based on the capacitance value and the power factor value of the bushing. 19 . The method of claim 18 , comprising dividing, via the processor, the measured current amplitude by the measured voltage amplitude to determine the capacitance value. 20 . The method of claim 18 , comprising determining, via the processor, an angle between the measured voltage phase and the measured current phase, wherein the power factor value is based on the angle.