Switchgear load sharing for oil field equipment

What is claimed is: 1. A hydraulic fracturing system for fracturing a subterranean formation comprising: a plurality of electric pumps fluidly connected to a well associated with the subterranean formation and powered by at least one electric motor; two electrical banks, each of the two electrical banks comprising: a generator electrically coupled to the plurality of electric pumps, and a switchgear system electrically coupled to the generator and configured to distribute an electrical load between the plurality of electric pumps and the generator; and a tie breaker electrically coupled between respective switchgear systems of the two electrical banks, the tie breaker distributing the electrical load responsive to a position of the tie breaker, wherein the tie breaker is configured to: evenly distribute the electrical load between the plurality of electric pumps and the generators of the two electrical banks when the tie breaker is in a closed position; and isolate one or more of the plurality of electric pumps and at least one electrical bank of the two electric banks when the tie breaker is in an open position. 2. The hydraulic fracturing system of claim 1 , wherein each of the two electrical banks is configured to distribute the electrical load between the plurality of electric pumps and the respective generators associated with the two electrical banks independent of an operating status of other electrical banks of the two electrical banks. 3. The hydraulic fracturing system of claim 1 , further comprising: a single electrical microgrid including one generator of the two electrical banks, one switchgear system of the two electrical banks, and at least a portion of the plurality of electric pumps. 4. The hydraulic fracturing system of claim 1 , wherein each electrical bank of the two electrical banks further comprises respective second generators, wherein: the tie breaker is in the closed position; both generators of one electrical bank of the two electrical banks are operational; and the second generator of the other electrical bank of the two electrical banks is shut down while the generator is active; wherein the electrical load is evenly distributed among the generators of the one electrical bank and the generator of the other electrical bank. 5. The hydraulic fracturing system of claim 1 , further comprising: a third electrical bank comprising a generator and a switchgear system; and a second tie breaker electrically coupled between at least one switchgear system of the two electrical banks, the second tie breaker distributing the electrical load responsive to a position of the second tie breaker. 6. The hydraulic fracturing system of claim 1 , wherein at least one of the switchgear systems is configured to distribute power among any of one or more transformers, auxiliaries, other switchgear systems, or a combination thereof. 7. The hydraulic fracturing system of claim 6 , wherein the auxiliaries comprise one or more of any of a blender, electric wireline equipment, a water transfer pump, an electric crane, a data van, a work trailer, living quarters, an emergency shower, sand equipment, a turbine inlet chiller, a compressor station, a pumping station, a second fracturing site, a drill rig, or a nitrogen plant, or a combination thereof. 8. The hydraulic fracturing system of claim 1 , further comprising: a transformer electrically coupled to a utility grid; and a second tie breaker electrically coupled between at least one switchgear system of the two electrical banks and the transformer. 9. The hydraulic fracturing system of claim 8 , wherein the second tie breaker is positioned on a downstream side of the transformer such that the second tie breaker is not coupled to a connection from the utility grid absent the transformer. 10. The hydraulic fracturing system of claim 1 , further comprising: an electrical connection between a utility grid and at least one of the switchgear systems. 11. The hydraulic fracturing system of claim 1 , further comprising: a power connection panel associated with the plurality of electric pumps, wherein the power connection panel comprises: plurality of power connections for each of the plurality of electric pumps; and a system ground connection configured to act as a ground between the plurality of electric pumps and a transformer, wherein the transformer is configured to provide power to the plurality of electric pumps. 12. The hydraulic fracturing system of claim 1 , further comprising: a variable frequency drive connected to the at least one electric motor to control the speed of the at least one electric motor, wherein the variable frequency drive is adapted to perform electric motor diagnostics. 13. A hydraulic fracturing system for fracturing a subterranean formation comprising: a plurality of electric pumps fluidly connected to a well associated with the subterranean formation and powered by at least one electric motor; three electrical banks, each of the three electrical banks comprising: a generator electrically coupled to the plurality of electric pumps, and a switchgear system electrically coupled to the generator and configured to distribute an electrical load between the plurality of electric pumps and the generator; and a first tie breaker electrically coupled between a first switchgear system and a second switchgear system of the three electrical banks, the first tie breaker distributing the electrical load responsive to a position of the first tie breaker; and a second tie breaker electrically coupled between a third switchgear system and the second switchgear system of the three electrical banks, the second tie breaker distributing the electrical load responsive to a position of the second tie breaker. 14. The hydraulic fracturing system of claim 13 , wherein each of the three electrical banks is configured to distribute the electrical load between the plurality of electric pumps and the respective generators associated with the three electrical banks independent of an operating status of other electrical banks of the three electrical banks. 15. The hydraulic fracturing system of claim 13 , wherein the first tie breaker is configured to: evenly distribute the electrical load between the plurality of electric pumps and respective generators of two electrical banks of the three electrical banks when the first tie breaker is in a closed position; and isolate one or more of the plurality of electric pumps and at least one electrical bank of the three electrical banks when the first tie breaker is in an open position. 16. A hydraulic fracturing system for fracturing a subterranean formation comprising: a plurality of electric pumps fluidly connected to a well associated with the subterranean formation and powered by at least one electric motor; a first electrical bank, comprising: a first generator electrically coupled to a first portion of the plurality of electric pumps, and a first switchgear system electrically coupled to the first generator and configured to distribute an electrical load between the first portion of the plurality of electric pumps and the first generator; and a second electrical bank, comprising: a second generator electrically coupled to a second portion of the plurality of electric pumps, and a second switchgear system electrically coupled to the second generator and configured to distribute the electrical load between the second portion of the plurality of electric pumps and the second generator; and a tie breaker electrically coupled between the first switchgear sys