System and method for controlling and monitoring parallel surge arresters and bushings of a power transformer and motor

What is claimed is: 1. An over-voltage protection system for protecting electrical equipment from over-voltage transients from a power source, the system comprising: a protection circuit comprising: a first electrical bus, wherein the first electrical bus is energized by the power source; a second electrical bus configured to feed power to the electrical equipment; a first surge arrester and a second surge arrester arranged in parallel, the first surge arrester having one end electrically connected to the first electrical bus via first normally closed contact and having an opposite end connected to ground, the second surge arrester having one end electrically connected to the first electrical bus via a second normally closed contact and having and an opposite end connected to ground; a main bushing and a backup bushing, wherein the main bushing is connected between the first electrical bus and the second electrical bus by a third normally closed contact, wherein the backup bushing is connected between the first electrical bus and the second electrical bus by a first normally open contact, wherein the first normally open contact is provided in series with the backup bushing and configured to isolate the backup bushing from at least one of the first electrical bus and the second electrical bus while in an open state and is configured to electrically connect the backup bushing to the one or more of the first electrical bus and the second electrical bus when in a closed state; and a controller configured to selectively open or close one or more of the first normally closed contact, the second normally closed contact, the third normally closed contact, and the first normally open contact, and wherein the controller is configured to: selectively isolate the first surge arrester and thereby remove it from service in the protection circuit by opening the first normally closed contact, selectively isolate the second surge arrester and thereby remove it from service in the protection circuit by opening the second normally closed contact, selectively isolate the main bushing and thereby remove it from service in the protection circuit by opening the third normally closed contact, and selectively place the backup bushing into service in the protection circuit by closing the first normally open contact thereby electrically connecting the backup bushing to the first electrical bus and the second electrical bus. 2. The system of claim 1 , further comprising: a tan delta tester operatively connected to the controller and configured to test an insulation property of one or more of the first surge arrester and the second surge arrester; and an Insulation Resistance (IR) tester operatively connected to controller and configured to test an insulation property of one or more of the main bushing and the backup bushing. 3. The system of claim 2 , wherein the controller is configured to measure the insulation property of a given surge arrester among the first surge arrester and second surge arrester individually, and wherein, prior to measuring the insulation property of the given surge arrester, the controller is configured to isolate the given surge arrester from the protection circuit, while maintaining another surge arrester among the first and second surge arresters in service in the protection circuit. 4. The system of claim 3 , wherein the controller is configured to measure the insulation property of a given bushing among the main bushing and the backup bushing individually using the IR tester, and wherein, prior to measuring the insulation property of the given bushing using the IR tester, the controller is configured to remove the given bushing from service, and place the other bushing among the main bushing and the backup bushing into service in the protection circuit. 5. The system of claim 4 , wherein the IR tester measures a ratio of a resistance of the given bushing, and wherein the controller is configured to calculate a Polarization Index (PI) value from the IR tester measurement, and wherein the controller is configured to determine a status of the given bushing's insulation by comparing the ratio measured by the IR tester to a prescribed Minimum Accepted Value of Insulation (MAV) and by comparing the calculated PI value to a prescribed PI threshold, and wherein the tan delta tester is configured to measure a ratio of a resistance of the given surge arrester divided by a capacitance of the given surge arrester, and wherein the controller is configured to determine a status of the given surge arrester's insulation by comparing the ratio measured by the tan delta tester to a prescribed threshold ratio. 6. The system of claim 5 , wherein in response to determining that the status of the given surge arrester's insulation is poor, the controller is configured to isolate the given surge arrester from the protection circuit, and maintain the other surge arrester among the first and second surge arrester in service, and wherein in response to determining that the status of the given bushing's insulation is poor, the controller is configured to isolate the given bushing from the protection circuit and maintain the other bushing among the main bushing and the backup bushing in service. 7. The system of claim 4 , wherein the main bushing is arranged in series between the third normally closed contact and a fourth normally closed contact, and wherein the controller is configured to selectively isolate the main bushing by opening the third and fourth normally closed contacts, and wherein the backup bushing is arranged in series between the first normally open contact and a second normally open contact, and wherein the controller is configured to electrically connecting the backup bushing to the first electrical bus and the second electrical bus by closing the first and second normally open contacts and thereby placing the backup bushing into service in the protection circuit. 8. The system of claim 5 , further comprising: one or more temperature sensors configured to measure an ambient temperature, wherein the controller is configured to adjust the Tan Delta tester measurement and the IR tester measurement as a function of the ambient temperature. 9. The system of claim 5 , further comprising: a monitoring computing system in communication with the controller, wherein the controller is configured to output the determined status of the given surge arrester's insulation and the determined status of the given bushing's insulation; and a display in communication with the controller, wherein the controller is configured to output via the display, the determined status of the given surge arrester's insulation and the determined status of the given bushing's insulation. 10. The system of claim 1 , further comprising: a plurality of protection circuits, wherein the plurality of protection circuits are each configured to receive a respective phase of the power from the power source and supply the respective phase of the power to the equipment. 11. A method of protecting electrical equipment from over-voltage transients from a power source using an over-voltage protection system, the method comprising: protecting a protection circuit comprising: a first electrical bus, wherein the first electrical bus is energized by the power source; a second electrical bus configured to feed power to the electrical equipment; a first surge arrester and a second surge arrester arranged in parallel, the first surge arrester having one end electrically connected to the first electrical bus via first normally closed contact and having an opposite end connected to ground, the second surge arrester having one end ele