Vehicle seat ventilation system and control

What is claimed is: 1. A ventilation system for a vehicle seat, the ventilation system comprising: a seat bottom blower unit configured to selectively draw airflow into a seat bottom of the vehicle seat; a seat back blower unit configured to selectively draw airflow into a seat back of the vehicle seat; and a controller in signal communication with the seat bottom blower unit and the seat back blower unit via a common control line, the controller configured to generate a common pulse width modulation (PWM) duty cycle signal configured to independently control both the seat bottom blower unit and the seat back blower unit such that the seat back and seat bottom blower units are configured to selectively operate at different predetermined speeds based on the common duty cycle signal received via the common control line. 2. The ventilation system of claim 1 , wherein the controller is a single controller, wherein the seat bottom blower unit and the seat back blower unit are connected in parallel to the single controller by the common control line, and wherein the generated PWM duty cycle signal is configured to independently control both the seat bottom blower unit and the seat back blower unit such that the seat back and seat bottom blower units are configured to simultaneously operate at different predetermined speeds based on the common duty cycle signal received via the common control line. 3. The ventilation system of claim 2 , wherein the wherein the seat bottom blower unit and the seat back blower unit are separate blower units spaced apart from each other and positioned in seat back and the seat bottom, respectively. 4. The ventilation system of claim 1 , wherein the common PWM duty cycle signal is generated based on a seat bottom ventilation setting input signal and a seat back ventilation setting input signal. 5. The ventilation system of claim 1 , wherein the seat bottom blower unit includes an off setting, a low setting, a medium setting, and a high setting each corresponding to a different speed of the seat bottom blower unit. 6. The ventilation system of claim 5 , wherein the seat back blower unit includes an off setting, a low setting, a medium setting, and a high setting each corresponding to a different speed of the seat back blower unit. 7. The ventilation system of claim 5 , wherein each off setting corresponds to approximately 0 RPM blower speed, each low setting corresponds to between approximately 2,000 RPM and approximately 3,500 RPM blower speed, each medium setting corresponds to between approximately 3,500 RPM and approximately 5,000 RPM blower speed, and each high setting corresponds to between approximately 5,000 RPM and approximately 6,500 RPM blower speed. 8. The ventilation system of claim 1 , wherein the common PWM duty cycle signal is between 0% and 100%. 9. The ventilation system of claim 8 , wherein the common PWM duty cycle signal is configured to generate sixteen unique control states with the seat bottom blower unit and the seat back blower unit. 10. A vehicle seat comprising: a seat bottom having a first plurality of air passages; a seat back having a second plurality of air passages; and a seat ventilation system comprising: a seat bottom blower unit configured to selectively draw a first airflow through the first plurality of air passages; a seat back blower unit configured to selectively draw a second airflow through the second plurality of air passages; and a controller in signal communication with the seat bottom blower unit and the seat back blower unit, the controller configured to generate a common pulse width modulation (PWM) duty cycle signal based on a seat bottom ventilation setting input signal and a seat back ventilation setting input signal, wherein the seat bottom blower unit is configured to operate at a first predetermined blower speed based on the common duty cycle signal, and the seat back blower unit is configured to operate at a second different predetermined speed based on the common duty cycle signal, wherein the seat bottom blower unit and the seat back blower unit are configured to simultaneously operate at different speeds based on the common duty cycle signal. 11. The vehicle seat of claim 10 , further comprising a first air manifold coupled between the seat bottom blower unit and the first plurality of air passages. 12. The vehicle seat of claim 11 , further comprising a second air manifold coupled between the seat back blower unit and the second plurality of air passages. 13. The vehicle seat of claim 10 , wherein the controller is a single controller, and wherein the seat bottom blower unit and the seat back blower unit are connected in parallel to the controller by a common control line. 14. The vehicle seat of claim 13 , wherein the wherein the seat bottom blower unit and the seat back blower unit are separate blower units spaced apart from each other and positioned in seat back and the seat bottom, respectively. 15. The vehicle seat of claim 10 , wherein the common PWM duty cycle signal is generated based on a seat bottom ventilation setting input signal and a seat back ventilation setting input signal. 16. The vehicle seat of claim 10 , wherein the seat bottom blower unit includes an off setting, a low setting, a medium setting, and a high setting each corresponding to a different speed of the seat bottom blower unit. 17. The vehicle seat of claim 16 , wherein the seat back blower unit includes an off setting, a low setting, a medium setting, and a high setting each corresponding to a different speed of the seat back blower unit. 18. The vehicle seat of claim 10 , wherein the common PWM duty cycle signal is configured to generate sixteen unique control states with the seat bottom blower unit and the seat back blower unit.