Systems for detecting failures or faults in power conversion equipment

What is claimed is: 1. A system for detecting a fault in electric power conversion equipment having an input stage and an output stage, comprising: an output voltage sensor positioned within the output stage and configured to generate an output voltage signal; an input current sensor positioned at the input stage and configured to generate an input current signal; and a processor configured to analyze the output voltage signal and the input current signal to determine an occurrence of the fault in the electric power conversion equipment, wherein the processor includes a first detection circuit, the first detection circuit including a scaler, a first signal isolator, a high pass filter, a first comparator, a rectifier and timing circuit and a second comparator, the first detection circuit configured to receive the output voltage signal and determine whether an output voltage excursion at the output stage has occurred. 2. The system of claim 1 , wherein the output voltage sensor is a direct current voltage sensor. 3. The system of claim 2 , wherein the input current sensor is a three-phase alternating current sensor. 4. The system of claim 1 , wherein the scaler is configured to scale the output voltage signal and to generate a scaled output voltage signal. 5. The system of claim 4 , wherein the first signal isolator is configured to receive the scaled output voltage signal and to generate a scaled and isolated output voltage signal. 6. The system of claim 5 , wherein the processor includes a second detection circuit, the second detection circuit including the scaler, the first signal isolator and a third comparator, the second detection circuit configured to receive the output voltage signal and determine whether an overload and loss of output at the output stage has occurred. 7. The system of claim 6 , wherein the processor includes a second signal isolator configured to receive the input current signal and to generate an isolated input current signal. 8. The system of claim 7 , wherein the processor includes a third detection circuit, the third detection circuit including the second signal isolator, a rectifier and averaging circuit, a differential amplifier and a fourth comparator, the third detection circuit configured to receive the input current signal and determine whether an unbalanced phase current has occurred. 9. The system of claim 8 , wherein the processor includes a fourth detection circuit, the fourth detection circuit including the second signal isolator and a fifth comparator, the fourth detection circuit configured to receive the input current signal and determine whether an input current exceedance has occurred. 10. The system of claim 7 , wherein each component comprising the first detection circuit and the second detection circuit is an analog component. 11. The system of claim 9 , wherein each component comprising the third detection circuit and the fourth detection circuit is an analog component. 12. A transformer rectifier unit having an input stage, a transformer stage, a rectifier stage and an output stage, comprising: an output voltage sensor positioned within the output stage and configured to generate an output voltage signal; an input current sensor positioned at the input stage and configured to generate an input current signal; and a processor configured to analyze the output voltage signal and the input current signal to determine an occurrence of a fault in one or more of the input stage, the transformer stage, the rectifier stage and the output stage, wherein the output voltage sensor is a direct current voltage sensor and the input current sensor in a three-phase alternating current sensor, and wherein the processor includes a first detection circuit, the first detection circuit including a scaler, a first signal isolator, a high pass filter, a first comparator, a rectifier and a second comparator, the first detection circuit configured to receive the output voltage signal and determine whether an output voltage excursion at the output stage has occurred. 13. The transformer rectifier unit of claim 12 , wherein the processor includes a second detection circuit, the second detection circuit including the scaler, the first signal isolator and a third comparator, the second detection circuit configured to receive the output voltage signal and determine whether an overload and loss of output at the output stage has occurred. 14. The transformer rectifier unit of claim 13 , wherein the processor includes a third detection circuit, the third detection circuit including a second signal isolator, a rectifier and averaging circuit, a differential amplifier and a fourth comparator, the third detection circuit configured to receive the input current signal and determine whether an unbalanced phase current has occurred. 15. The transformer rectifier unit of claim 14 , wherein the processor includes a fourth detection circuit, the fourth detection circuit including the second signal isolator and a fifth comparator, the fourth detection circuit configured to receive the input current signal and determine whether an input current exceedance has occurred. 16. The transformer rectifier unit of claim 13 , wherein each component comprising the first detection circuit and the second detection circuit is an analog component. 17. The transformer rectifier unit of claim 15 , wherein each component comprising the third detection circuit and the fourth detection circuit is an analog component. 18. A method for detecting a fault in electric power conversion equipment having an input stage and an output stage, comprising: generating an output voltage signal via an output voltage sensor positioned within the output stage; generating an input current signal via an input current sensor positioned at the input stage; and determining an occurrence of the fault in the electric power conversion equipment via a processor, and through a detection circuit of the processor, the detection circuit including a scaler, a first signal isolator, a high bypass filter, a first comparator, a rectifier, and a second comparator, the detection circuit configured to analyze the output voltage signal and the input current signal, wherein determining the occurrence of the fault includes one or more of: receiving the output voltage signal and determining whether an output voltage excursion at the output stage has occurred, receiving the output voltage signal and determining whether an overload and loss of output at the output stage has occurred, receiving the input current signal and determining whether an unbalanced phase current has occurred and receiving the input current signal and determining whether an input current exceedance has occurred.