Modular multiple single-pole electromagnetic switching system and method

The invention claimed is: 1. A modular electromechanical switching system comprising: a first single pole, single current carrying path switching device configured to selectively switch between a conducting state and a non-conducting state; a second single pole, single current carrying path switching device configured to selectively switch between the conducting state and the non-conducting state; a third single pole, single current carrying path switching device configured to selectively switch between the conducting and the non-conducting state; and a wiring base, wherein: the first single pole, single current carrying path switching device is pluggable into the wiring base to receive a first control signal from control circuitry that instructs the first single pole, single current carrying path switching device to switch between the conducting state and the non-conducting state; the second single pole, single current carrying path switching device is pluggable into the wiring base to receive a second control signal from the control circuitry that instructs the second single pole, single current carrying path switching device to switch between the conducting state and the non-conducting state; and the third single pole, single current carrying path switching device is pluggable into the wiring base to receive a third control signal from the control circuitry that instructs the third single pole, single current carrying path switching device to switch between the conducting state and the non-conducting state. 2. The modular electromechanical switching system of claim 1 , wherein the wiring base comprises control circuitry configured to: control switching of the first single pole, single current carrying path switching device by generating the first control signal; control switching of the second single pole, single current carrying path switching device by generating the second control signal; control switching of the third single pole, single current carrying path switching device by generating the third control signal; or any combination thereof. 3. The modular electromechanical switching system of claim 1 , wherein: the wiring base comprises: a first conductive trace configured to receive the first control signal from control circuitry; and a first terminal electrically coupled to the first conductive trace; and the first single pole, single current carrying path switching device comprises: a housing; an operator coil disposed in the housing; and a second terminal electrically coupled to the operator coil and extending downwardly through the housing, wherein the second terminal is electrically coupled to the first terminal of the wiring base when the first single pole, single current carrying path switching device is plugged into the wiring base to facilitate supplying the first control signal to the operator coil. 4. The modular electromechanical switching system of claim 3 , wherein: the wiring base comprises: a second conductive trace configured to be electrically coupled to a power source; a first line-side terminal electrically coupled to the second conductive trace; a third conductive trace configured to be electrically coupled to an electrical load; and a first load-side terminal electrically coupled to the third conductive trace; and the first single pole, single current carrying path switching device comprises: a second line-side terminal, wherein the second line-side terminal is electrically coupled to the first line-side terminal of the wiring base when the first single pole, single current carrying path switching device is plugged into the wiring base; a second load-side terminal, wherein the second line-side terminal is electrically coupled to the first load-side terminal of the wiring base when the first single pole, single current carrying path switching device is plugged into the wiring base; and an armature, wherein the operator coil is configured to actuate the armature based at least in part on the first control signal to selectively connect and disconnect the second line-side terminal and the second load-side terminal. 5. The modular electromechanical switching system of claim 1 , wherein: the first single pole, single current carrying path switching device is substantially identical to the second single pole, single current carrying path switching device; and the second single pole, single current carrying path switching device is substantially identical to the third single pole, single current carrying path switching device. 6. The modular electromechanical switching system of claim 1 , comprising: a fourth single pole, single current carrying path switching device configured to selectively switch between the conducting state and the non-conducting state; and a fifth single pole, single current carrying path switching device configured to selectively switch between the conducting state and the non-conducting state; wherein the first single pole, single current carrying path switching device, the second single pole, single current carrying path switching device, the third single pole, single current carrying path switching device, the fourth, single pole, single current carrying path switching device, and the fifth single pole, single current carrying path switching device are configured to be electrically coupled to form a wye-delta starter. 7. The modular electromechanical switching system of claim 1 , wherein the first single pole, single current carrying path switching device, the second single pole, single current carrying path switching device, and the third single pole, single current carrying path switching device are configured to be electrically coupled to form a motor reverser. 8. The modular electromechanical switching system of claim 1 , wherein the first single pole, single current carrying path switching device, the second single pole, single current carrying path switching device, and the third single pole, single current carrying path switching device are configured to be electrically coupled to form a motor drive bypass. 9. The modular electromechanical switching system of claim 1 , wherein first single pole, single current carrying path switching devices, the second single pole, single current carrying path switching device, and the third single pole, single current carrying path switching device are configured to be electrically coupled to form a direct-on-line switching device. 10. A modular electromechanical switching system comprising: a plurality of modular single pole, single current carrying path switching devices each configured to selectively switch between a conducting state and a non-conducting state; and a wiring base, wherein each of the plurality of module switching devices is pluggable into the wiring base to receive corresponding control signals from control circuitry that instruct a corresponding one of the plurality of modular single pole, single current carrying path switching devices to switch between the conducting state and the non-conducting state. 11. The modular electromechanical switching system of claim 10 , wherein each of the plurality of modular single pole, single current carrying path switching devices is configured to control supply of a single phase of three-phase electrical power from a power source to an electrical load. 12. The modular electromechanical switching system of claim 10 , comprising an interlock disposed between and mechanically coupled to a first switching device and a second switching device of the plurality of modular single pole, single current carrying path switching devices, wherein the interlock is configured to: mechanically block