Fuel injector with variable area pintle nozzle

What is claimed is: 1. A fuel injector comprising: a housing defining a longitudinal bore, a high pressure fuel duct in communication with the longitudinal bore and a valve seat including a valve seat surface and an aperture, the valve seat surface being in communication with the high pressure fuel duct and the aperture extending through the valve seat surface and being in communication with the longitudinal bore, the housing further defines a nozzle having a nozzle wall and a nozzle outlet, the nozzle extends between the valve seat and the nozzle outlet and an entirety of the nozzle continuously tapers inwardly from the aperture of the valve seat to the nozzle outlet; a pintle nozzle assembly including a stem and a pintle, the pintle defining a terminal end of the entire pintle nozzle assembly, the pintle nozzle assembly being at least partially disposed within the longitudinal bore and being variably displaceable between a first position and a second position, the pintle nozzle assembly abutting the valve seat in the first position to seal the aperture, the pintle nozzle assembly being displaced from the valve seat in the second position to open the aperture, the pintle being disposed within the nozzle and having a constant diameter dimension along an entire length thereof from a proximal end adjacent said stem to a distal end of the pintle where both the pintle and the entire pintle nozzle assembly terminate, wherein an area between the pintle and the nozzle wall varies along at least a portion of the length of the nozzle such that the area increases as the actuation assembly moves the pintle nozzle assembly between the first position and the second position; and an actuation assembly coupled with the pintle nozzle assembly, wherein the actuation assembly operates to move the pintle nozzle assembly to a plurality of positions between the first position and the second position. 2. The fuel injector of claim 1 , wherein the pintle nozzle assembly further includes a biasing member to bias the pintle nozzle assembly to be in the first position. 3. The fuel injector of claim 1 , wherein the actuation assembly includes at least one of a piezoelectric actuator, an electromagnetic actuator, a magnetostrictive actuator, a servo actuator and a solenoid actuator. 4. The fuel injector of claim 1 , wherein the stem includes at least one guide member that assists in maintaining the pintle nozzle assembly centered within the longitudinal bore. 5. The fuel injector of claim 1 , wherein the valve seat defines a seat angle between ninety degrees and one hundred and eighty degrees. 6. The fuel injector of claim 1 , wherein the valve seat defines a seat angle between forty degrees and ninety degrees. 7. A fuel injector comprising: a housing defining a longitudinal bore, a high pressure fuel duct in communication with the longitudinal bore and a valve seat including a valve seat surface and an aperture, the valve seat surface being in communication with the high pressure fuel duct and the aperture extending through the valve seat surface and being in communication with the longitudinal bore, the housing further defines a nozzle having a nozzle wall and a nozzle outlet, the nozzle extends between the valve seat and the nozzle outlet and an entirety of the nozzle continuously tapers radially inward from the aperture of the valve seat to the nozzle outlet; a pintle nozzle assembly including a stem and a pintle, the pintle defining a terminal end of the entire pintle nozzle assembly, the pintle nozzle assembly being at least partially disposed within the longitudinal bore and being variably displaceable between a first position and a second position, the stem of the pintle nozzle assembly including a stem seat abutting the valve seat in the first position to seal the aperture while the entire pintle remains recessed within the nozzle outlet, the stem seat of the pintle nozzle assembly being displaced from the valve seat in the second position to open the aperture, the pintle being disposed within the nozzle, wherein an area between the pintle and the nozzle wall varies along at least a portion of the length of the nozzle such that the area increases as the actuation assembly moves the pintle nozzle assembly between the first position and the second position; and an actuation assembly coupled with the pintle nozzle assembly, wherein the actuation assembly operates to move the pintle nozzle assembly to a plurality of positions between the first position and the second position; wherein the entire pintle is tapered radially outward from a proximal end adjacent said stem seat toward a distal end disposed in said nozzle outlet such that the area between the pintle and the nozzle wall varies along the nozzle length. 8. An engine assembly comprising: an engine structure defining a cylinder; and a fuel injector supported by the engine structure and in communication with the cylinder, the fuel injector including: a housing defining a longitudinal bore, a high pressure fuel duct in communication with the longitudinal bore and a valve seat including a valve seat surface and an aperture, the valve seat surface being in communication with the high pressure fuel duct and the aperture extending through the valve seat surface and being in communication with the longitudinal bore, the housing further defines a nozzle having a nozzle wall and a nozzle outlet, the nozzle extends between the valve seat and the nozzle outlet and an entirety of the nozzle continuously tapers radially inward from the aperture of the valve seat to the nozzle outlet; a pintle nozzle assembly including a stem and a pintle, the pintle defining a terminal end of the entire pintle nozzle assembly, the pintle nozzle assembly being at least partially disposed within the longitudinal bore and being variably displaceable between a first position and a second position, the pintle nozzle assembly abutting the valve seat in the first position to seal the aperture, the pintle nozzle assembly being displaced from the valve seat in the second position to open the aperture, the pintle being disposed within the nozzle and having a constant diameter dimension along an entire length thereof from a proximal end adjacent said stem to a distal end of the pintle where both the pintle and the pintle nozzle assembly terminate, wherein an area between the pintle and the nozzle wall varies along at least a portion of the length of the nozzle such that the area increases as the actuation assembly moves the pintle nozzle assembly between the first position and the second position; and an actuation assembly coupled with the pintle nozzle assembly, wherein the actuation assembly operates to move the pintle nozzle assembly to a plurality of positions between the first position and the second position. 9. The engine assembly of claim 8 , wherein the pintle nozzle assembly further includes a biasing member to bias the pintle nozzle assembly to be in the first position. 10. The engine assembly of claim 8 , wherein the actuation assembly includes at least one of a piezoelectric actuator, an electromagnetic actuator, a magnetostrictive actuator, a servo actuator and a solenoid actuator. 11. The engine assembly of claim 8 , wherein the stem includes at least one guide member that assists in maintaining the pintle nozzle assembly centered within the longitudinal bore. 12. The engine assembly of claim 8 , wherein the valve seat defines a seat angle between ninety degrees and one hundred and eighty degrees. 13. The engine assembly of claim 8 , wherein the valve seat defines a seat angle between forty degrees and ninety degrees.