Blower motor for HVAC systems

Having thus described the exemplary embodiment of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A method of replacing a permanent split capacitor motor with a variable speed motor assembly including a variable speed motor, the method comprising: removing the permanent spot capacitor motor: connecting speed/tap selection wires from a furnace control board to a sensing circuit of the variable speed motor assembly; and connecting an AC power line to a rectifier circuit of the variable speed motor assembly for powering the variable speed motor independently of the furnace control board, wherein the furnace board includes five speed/tap selection wires and the sensing circuit includes five inputs to which the speed/tap selection wires are connected. 2. The method of claim 1 , wherein the speed/tap selection wires are used for determining a speed setting of the variable speed motor. 3. The method of claim 2 , further comprising: programming speed characteristics directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 4. The method of claim 2 , further comprising: programming start delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 5. The method of claim 2 , further comprising: programming stop delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 6. The method of claim 2 , further comprising: programming start ramp-ups directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 7. The method of claim 2 , further comprising: programming stop ramp-downs directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 8. The method of claim 1 , wherein the variable speed motor assembly includes a motor controller configured to determine a speed or torque value to provide to the variable speed motor, the speed or torque value varying according to an output of the sensing circuit. 9. The method of claim 8 , wherein the sensing circuit includes three outputs, the motor controller includes three inputs to which the three outputs of the sensing circuit are connected, and the sensing circuit is configured to set electrical values of the three outputs according to electrical values of the speed/tap selection wires from the furnace board. 10. A method of replacing a permanent split capacitor motor with a variable speed motor, the method comprising: removing the permanent split capacitor motor: connecting five speed/tap selection wires from a furnace control board to five inputs of a sensing circuit of the variable speed motor assembly; and connecting an AC power line to a rectifier circuit of the variable speed motor assembly for powering the variable speed motor independently of the furnace control board. 11. The method of claim 10 , wherein the speed/tap selection wires are used for determining a speed setting of the variable speed motor. 12. The method of claim 11 , further comprising: programming speed characteristics directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 13. The method of claim 11 , further comprising: programming start delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 14. The method of claim 11 further comprising: programming stop delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 15. The method of claim 11 , further comprising: programming start ramp-ups directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 16. The method of claim 11 , further comprising: programming stop ramp-downs directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 17. A method of replacing a permanent split capacitor motor with a variable speed motor, the method comprising: removing the permanent split capacitor motor; connecting speed/tap selection wires from a furnace control board to a sensing circuit of the variable speed motor assembly, wherein the speed/tap selection wires are used for determining a speed setting of the variable speed motor; connecting an AC power line to a rectifier circuit of the variable speed motor assembly for powering the variable speed motor independently of the furnace control board; and programming start delays, stop delays, start ramp-ups, or stop ramp-downs directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 18. The method of claim 17 , wherein the variable speed motor assembly includes a motor controller configured to determine a speed or torque value to provide to the variable speed motor, the speed or torque value varying according to an output of the sensing circuit. 19. The method of claim 18 , wherein the sensing circuit includes three outputs, the motor controller includes three inputs to which the three outputs of the sensing circuit are connected, and the sensing circuit is configured to set electrical values of the three outputs according to electrical values of the speed/tap selection wires from the furnace board. 20. A method of replacing a permanent split capacitor motor with a variable speed motor assembly including a variable speed motor, the method comprising: removing the permanent split capacitor motor; connecting speed/tap selection wires from a furnace control board to a sensing circuit of the variable speed motor assembly, wherein the speed/tap selection wires are used for determining a speed setting of the variable speed motor; connecting an AC power line to a rectifier circuit of the variable speed motor assembly for powering the variable speed motor independently of the furnace control board; and programming start delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 21. A method of replacing a permanent spilt capacitor motor with a variable speed motor assembly including a variable speed motor, the method comprising: removing the permanent split capacitor motor; connecting speed/tap selection wires from a furnace control board to a sensing circuit of the variable speed motor assembly, wherein the speed/tap selection wires are used for determining a speed setting of the variable speed motor; connecting an AC power line to a rectifier circuit of the variable speed motor assembly for powering the variable speed motor independently of the furnace control board; and programming stop delays directly into a motor controller of the variable speed motor independently of any speed settings provided by the furnace control board. 22. A method of replacing a permanent split capacitor motor with a variable speed motor as-sembly including a variable speed motor, the method comprising: removing the permanent split capacitor motor; connecting sp