Electrical switching apparatus including alternating current electronic trip circuit with arc fault detection circuit

What is claimed is: 1 . An electrical switching apparatus structured to electrically connect between a direct current power source and a direct current load, the electrical switching apparatus comprising: separable contacts; an operating mechanism configured to open and close said separable contacts; a trip actuator configured to cooperate with said operating mechanism to trip open said separable contacts; a transductor circuit including first and second current transformers, the transductor circuit being configured to sense a direct current component of a current flowing between the direct current power source and the direct current load to output an alternating current proportional to the direct current component; and an alternating current electronic trip circuit being configured to control said trip actuator based on the alternating current output from the transductor circuit. 2 . The electrical switching apparatus of claim 1 , further comprising: a current sensor configured to sense an alternating current component of the current flowing between the direct current power source and the direct current load, and wherein the alternating current trip circuit includes an arc fault detection circuit configured to detect an arc fault based on the sensed alternating current component and to control said trip actuator based on the detected arc fault. 3 . The electrical switching apparatus of claim 2 , wherein the current sensor is a third current transformer. 4 . The electrical switching apparatus of claim 1 , wherein the alternating current trip circuit further includes: a rectifier circuit having a rectifier circuit input and a rectifier circuit output, the rectifier circuit input being electrically connected to the transductor circuit; an interface circuit having an interface circuit input and an interface circuit output, the interface circuit input being electrically connected to the rectifier circuit output; and a processor having a processor input electrically connected to the interface circuit output, the processor being structured to output a trip control signal based on the alternating current output from the transductor circuit. 5 . The electrical switching apparatus of claim 4 , wherein the rectifier circuit includes a full-wave rectifier. 6 . The electrical switching apparatus of claim 4 , wherein the alternating current electronic trip circuit further includes a trip threshold setting circuit structured to set an override threshold at which the processor controls the separable contacts to trip open instantaneously. 7 . The electrical switching apparatus of claim 4 , further comprising: a current sensor configured to sense an alternating current component of the current flowing between the direct current power source and the direct current load, wherein the alternating current trip circuit includes an arc fault detection circuit configured to detect an arc fault based on the sensed alternating current component and to control said trip actuator based on the detected arc fault, and wherein the arc fault detection circuit is configured to output an arc fault control signal when an arc fault is detected. 8 . The electrical switching apparatus of claim 7 , wherein the alternating current electronic trip circuit further includes an output interface circuit having a first input electrically connected to the processor and a second input electrically connected to the arc fault detection circuit; wherein the output interface circuit is configured to control said trip actuator to cooperate with said operating mechanism to trip open said separable contacts when the trip control signal is received at the first input or the arc fault control signal is received at the second input. 9 . The electrical switching apparatus of claim 1 , wherein the first current transformer includes a first secondary winding and the second current transformer includes a second secondary winding; wherein the transductor circuit includes an alternating current power circuit configured to provide an alternating voltage to the first current transformer and the second current transformer; and wherein the first and second secondary windings are electrically connected in series-opposition such that an electromotive force induced in the first secondary winding by the direct current component is in opposition with an electromotive force induced in the second secondary winding the direct current component. 10 . The electrical switching apparatus of claim 9 , wherein the alternating current power circuit includes an alternating current power source and a fourth transformer; and wherein the alternating current power source is configured to provide the alternating voltage to the first current transformer and the second current transformer via the fourth transformer. 11 . The electrical switching apparatus of claim 9 , wherein the alternating current power circuit includes a direct current/alternating current inverter and a second direct current power source; and wherein the direct current/alternating current inverter converts a direct current voltage generated by the second direct current power source into said alternating voltage. 12 . The electrical switching apparatus of claim 9 , wherein the first and second secondary windings each include a first end and a second end; wherein the first end of the first secondary winding is electrically connected to the third transformer; wherein the second end of the first secondary winding is electrically connected to the second end of the second secondary winding; and wherein the first end of the second secondary winding is electrically connected to the alternating current electronic trip circuit. 13 . The electrical switching apparatus of claim 12 , wherein the direct current load is potentially ungrounded. 14 . The electrical switching apparatus of claim 9 , wherein the first and second secondary windings each include a first end and a second end; wherein the first end of the first secondary winding is electrically connected to the third transformer; wherein the second end of the first secondary winding is electrically connected to the first end of the second secondary winding; and wherein the second end of the second secondary winding is electrically connected to the alternating current electronic trip circuit. 15 . The electrical switching apparatus of claim 14 , wherein the direct current load is potentially grounded. 16 . The electrical switching apparatus of claim 2 , wherein the alternating current electronic trip circuit further includes: a rectifier circuit having a rectifier circuit input and a rectifier circuit output, the rectifier circuit input being electrically connected to the transductor circuit; an interface circuit having an interface circuit input and an interface circuit output, the interface circuit input being electrically connected to the rectifier circuit output; and a processor having a first processor input electrically connected to the interface circuit output, a second processor input electrically connected to the arc fault detection circuit, and a processor output electrically connected to the trip actuator, wherein the arc fault detection circuit is structured to use the processor to assist with detecting the arc fault, and wherein the processor is structured to output a trip control signal at the processor output based on the alternating current output from the transductor circuit and to output an arc fault control signal at the processor output when an arc fault is detected.