Adaptor module and methods for controlling a replacement motor

What is claimed is: 1. An adaptor module configured to control a motor in a heating, ventilation, and air conditioning (HVAC) system, said adaptor module comprising: a plurality of input tap connectors, each input tap connector of said plurality of input tap connectors configured to receive a control signal; a user interface comprising a plurality of switches that are adjustable into a plurality of different configurations, wherein each of the plurality of configurations correlates to at least one stored operating parameter for application to the motor; a processing device coupled to a memory device, said processing device configured to: determine which input tap connectors of said plurality of input tap connectors are receiving the control signal; determine a current operating mode of a plurality of operating modes based on which input tap connectors of said plurality of input tap connectors are receiving the control signal; determine a current operating parameter at which to operate the motor using a lookup table based on a current configuration of the plurality of different configurations of said plurality of switches of said user interface and based on the current operating mode, wherein the lookup table includes a plurality of locations, each location of the plurality of locations storing an operating parameter of the at least one stored operating parameter, and wherein each location of the plurality of locations is specified by an operating mode of the plurality of operating modes and a configuration of the plurality of configurations; and transmit a command signal including instructions for the motor to operate in accordance with the determined current operating parameter. 2. The adaptor module of claim 1 , wherein the command signal is a low-voltage command signal including one of a PWM signal and a DSI signal. 3. The adaptor module of claim 1 , wherein the control signal comprises a high-voltage signal including one of a 120 VAC signal, a 240 VAC signal, and a 277 VAC signal. 4. The adaptor module of claim 1 , wherein the at least one stored operating parameter includes at least one of speed, torque, and airflow. 5. The adaptor module of claim 1 , wherein said user interface comprises one of a DIP switch and a rotary switch. 6. The adaptor module of claim 1 , further comprising a wireless communication module, wherein a predefined configuration of one switch of said plurality of switches facilitates receiving adjusted operating parameters input by a user using an external computing device. 7. The adaptor module of claim 1 , further comprising a data output connector configured to provide the command signal from said adaptor module to the motor. 8. The adaptor module of claim 1 , further comprising: an input power connector configured to receive line input power provided to said adaptor module; and an output power connector configured to provide the line input power to the motor. 9. The adaptor module of claim 1 , wherein the control signal is received from one of an HVAC system controller and a thermostat. 10. A method of controlling a motor in a heating, ventilation, and air conditioning (HVAC) system using an adaptor module, the adaptor module including a processing device coupled to a memory device, said method comprising: receiving a control signal at an input tap connector of a plurality of input tap connectors; determining, by the processing device, which input tap connectors of said plurality of input tap connectors are receiving the control signal; determining, by the processing device, a current operating mode of a plurality of operating modes based on which input tap connectors of said plurality of input tap connectors are receiving the control signal; determining, by the processing device, a current configuration of a plurality of configurations of a plurality of switches of a user interface; determining, by the processing device, current operating parameter at which to operate the motor using a lookup table based on the current configuration of the plurality of switches of the user interface and based on the current operating mode, wherein the lookup table includes a plurality of locations, each location of the plurality of locations storing an operating parameter of at least one stored operating parameter, and wherein each location of the plurality of locations is specified by an operating mode of the plurality of operating modes and a configuration of the plurality of configurations; and transmitting, by the processing device, a command signal including instructions for the motor to operate in accordance with the determined current operating parameter. 11. The method of claim 10 , wherein transmitting the command signal comprises transmitting a low-voltage command signal including one of a PWM signal and a DSI signal. 12. The method of claim 10 , wherein receiving the control signal comprises receiving a high-voltage signal including one of a 120 VAC signal, a 240 VAC signal, and a 277 VAC signal. 13. The method of claim 10 , wherein determining the configuration of the plurality of switches comprises determining a configuration of switches included on one of a DIP switch and a rotary switch. 14. The method of claim 10 , wherein the adaptor module includes a wireless communication module, said method further comprises: determining the plurality of switches of the user interface are arranged in a predefined configuration; receiving, by the processing device via the wireless communication module, adjusted operating parameters input by a user using an external computing device; and storing, by the processing device, the adjusted operating parameters in the memory device. 15. The method of claim 10 , wherein receiving the control signal further comprises receiving the control signal from one of an HVAC system controller and a thermostat. 16. A replacement motor system for replacing an alternating current (AC) motor in a heating, ventilation, and air conditioning (HVAC) system, said replacement motor system comprising: a direct current (DC) motor; and an adaptor module configured to control said DC motor, said adaptor module comprising: a plurality of input tap connectors, each input tap connector of said plurality of input tap connectors configured to receive a control signal; a user interface comprising a plurality of switches that are adjustable into a plurality of different configurations, wherein each of the plurality of configurations correlates to at least one stored operating parameter for application to the DC motor; and a processing device coupled to a memory device, said processing device configured to: determine which input tap connectors of said plurality of input tap connectors are receiving the control signal; determine a current operating mode of a plurality of operating modes based on which input tap connectors of said plurality of input tap connectors are receiving the control signal; determine current operating parameter at which to operate said DC motor using a lookup table based on a current configuration of the plurality of different configurations of said plurality of switches of said user interface and based on the current operating mode, wherein the lookup table includes a plurality of locations, each location of the plurality of locations storing an operating parameter of the at least one stored operating parameter, and wherein each location of the plurality of locations is specified by an operating mode of the plurality of operating modes and a configuration of the plurality of configurations; and transmit a command signal incl