Vehicle suspension control system and method of operation thereof

What is claimed is: 1. An air management system for controlling an air suspension assembly of an automotive vehicle comprising: a pressurized air source; a manifold block coupled to said pressurized air source and including a plurality of front suspension valves and a plurality of rear suspension valves in fluid communication with said pressurized air source for controlling air flow to and from a plurality of front air springs and a plurality of rear air springs; at least one leveling assist subassembly in fluid communication with said plurality of front suspension valves and said plurality of rear suspension valves to allow air flow to and from the plurality of front air springs and the plurality of rear air springs; and an electronic control unit electrically coupled to said plurality of front suspension valves and said plurality of rear suspension valves and said at least one leveling assist subassembly for controlling a sequence of operating said at least one leveling assist subassembly and said plurality of front suspension valves and said plurality of rear suspension valves to enhance the air flow from the plurality of front air springs and the plurality of rear air springs to maintain the vehicle in a level orientation while at least one of lowering and raising the vehicle, wherein said pressurized air source includes a compressor and a reservoir tank coupled to said manifold block and said manifold block further includes a first reservoir valve in fluid communication with said plurality of front suspension valves and said reservoir tank, wherein said at least one leveling assist subassembly includes a manifold isolation valve coupled between said plurality of front suspension valves and said first reservoir valve for providing fluid communication from the plurality of front air springs with said reservoir tank and said manifold isolation valve is electrically coupled to said electronic control unit to provide independent inflation air flow to the plurality of front air springs separately from the plurality of rear air springs to maintain the vehicle in a level orientation while raising the vehicle. 2. The air management system as set forth in claim 1 , wherein said manifold block includes a second reservoir valve coupled with said plurality of rear suspension valves and said reservoir tank for allowing fluid communication from the plurality of rear air springs with said reservoir tank. 3. The air management system as set forth in claim 1 , further including at least one reservoir fill valve disposed in said manifold block for filling said reservoir tank. 4. The air management system as set forth in claim 1 , wherein said compressor defines an exhaust outlet for exhausting air from said air management system and includes an exhaust valve electrically coupled to said electronic control unit and controlled by said electronic control unit to selectively open and close to inhibit and allow air to pass through said exhaust outlet. 5. The air management system as set forth in claim 1 , wherein said compressor includes an air dryer for reducing moisture in air being conveyed through said air management system. 6. The air management system as set forth in claim 1 , wherein said at least one leveling assist subassembly includes an accumulator coupled to said manifold block for storing air and an accumulator valve electrically coupled to said electronic control unit and disposed in said manifold block and in fluid communication with said plurality of suspension valves to allow exhausted air from the plurality of front air springs and the plurality of rear air springs into said accumulator to provide enhanced exhaust flow from the plurality of front air springs and the plurality of rear air springs to maintain the vehicle in a level orientation while lowering the vehicle. 7. The air management system as set forth in claim 1 , wherein said at least one leveling assist subassembly includes an accumulator coupled to said manifold block for storing air and an accumulator valve electrically coupled to said electronic control unit and disposed in said manifold block and in fluid communication with said plurality of suspension valves and a pair of corner accumulator blocker valves each coupled to said accumulator and to said plurality of front suspension valves and to said electronic control unit to allow exhausted air from the plurality of front air springs and the plurality of rear air springs into said accumulator to provide enhanced exhaust flow from the plurality of front air springs and the plurality of rear air springs to maintain the vehicle in a level orientation while lowering the vehicle. 8. The air management system as set forth in claim 1 , further including a pressure sensor disposed in the manifold block and electrically coupled to said electronic control unit for measuring pressure in at least one of said manifold block and said pressurized air source and the plurality of front air springs and the plurality of rear air springs. 9. A method of operating an air management system during one of lowering and raising a vehicle, comprising the steps of: operating a plurality of front suspension valves coupled to a plurality of front air springs and a plurality of rear suspension valves coupled to a plurality of rear air springs to initiate one of lowering and raising the vehicle; operating at least one leveling assist subassembly coupled to the plurality of front suspension valves and the plurality of rear suspension valves; providing enhanced air flow to and from at least one of the plurality of front air springs and the plurality of rear air springs using the at least one leveling assist subassembly; and maintaining the vehicle in a level orientation while at least one of lowering and raising the vehicle, wherein the step of operating the plurality of front suspension valves coupled to the plurality of front air springs and the plurality of rear suspension valves coupled to the plurality of rear air springs to initiate one of lowering and raising the vehicle includes opening the plurality of front suspension valves coupled to the plurality of front air springs and the plurality of rear suspension valves coupled to the plurality of rear air springs to initiate lowering the vehicle, wherein the method further includes the step of opening an exhaust valve coupled to the plurality of front suspension valves and the plurality of rear suspension valves to exhaust air from the plurality of front air springs and the plurality of rear air springs and wherein the step of operating at least one leveling assist subassembly coupled to the plurality of front suspension valves and the plurality of rear suspension valves includes opening an accumulator valve coupled to an accumulator and to the plurality of front suspension valves and the plurality of rear suspension valves to allow air from the plurality of front air springs and the plurality of rear air springs not exhausted through the exhaust valve to be exhausted to the accumulator. 10. The method as set forth in claim 9 , wherein the step of opening the plurality of front suspension valves coupled to the plurality of front air springs and the plurality of rear suspension valves coupled to the plurality of rear air springs to initiate lowering the vehicle includes: sequentially opening the plurality of front suspension valves coupled to the plurality of front air springs and the plurality of rear suspension valves coupled to the plurality of rear air springs; and reading pressures of the plurality of front air springs and the plurality of rear air springs with a pressure sensor. 11. The method as set forth in claim 9 , further including the steps of: closing