Jetting dispenser, and a method for jetting droplets of fluid material

What is claimed is: 1. A jetting dispenser for jetting droplets of fluid material, the jetting dispenser comprising: an actuation module including an actuation body member that defines an actuation body bore that includes a step; a fluid module including: a fluid body member connected to the actuation body member, the fluid body member having within it a fluid body bore for receiving the fluid material from a fluid supply; and a nozzle connected to the fluid body member, wherein the nozzle defines a dispensing opening and partially defines the fluid body bore; and a plunger that includes a piston assembly, wherein the piston assembly includes at least one plate that defines a planar lower surface and is positioned in the actuation body bore, and a stem that extends from the piston assembly to a distal tip end surface, wherein the distal tip end surface opposes and is complementary to a nozzle element surface of the nozzle, and the plunger is adapted to cause at least one droplet of fluid material to be jetted out of the dispensing opening, wherein the plunger is moveable between 1) a retracted position where the plunger is spaced from the dispensing opening and 2) a forward-most position where an entirety of the plunger is spaced from the nozzle and the planar lower surface of the at least one plate of the piston assembly directly contacts the step in the forward-most position, wherein the at least one droplet of the fluid material is jetted from the dispensing opening as the plunger moves from the retracted position to the forward-most position. 2. The jetting dispenser of claim 1 , further comprising: a stroke adjustment mechanism adapted to adjust the distance the plunger moves between the retracted position and the forward-most position. 3. The jetting dispenser of claim 1 , wherein the distal tip end surface has a convex shape, while the nozzle element surface has a concave shape. 4. The jetting dispenser of claim 1 , wherein the fluid body bore begins to fill with the fluid material as the plunger begins to move in the fluid body bore away from the dispensing opening. 5. The jetting dispenser of claim 1 , further comprising a spring that contacts an upper surface of the piston assembly, wherein the spring is configured to move the plunger from the retracted position to the forward-most position. 6. The jetting dispenser of claim 1 , further comprising a pneumatic system configured to move the plunger from the forward-most position to the retracted position. 7. The jetting dispenser of claim 1 , wherein the distal tip end surface has a conical shape, and the nozzle element surface has a frustoconical shape. 8. A method for jetting droplets of fluid material from a jetting dispenser having an actuation body member that defines an actuation body bore that includes a step, a fluid module including a fluid body member having within it a fluid body bore containing fluid material, and a nozzle defining a dispensing opening and partially defining the fluid body bore, the method comprising: moving a plunger in the fluid body bore toward the dispensing opening, wherein the plunger includes a piston assembly having at least one plate that defines a planar lower surface and is positioned in the actuation body bore, and a stem that extends from the piston assembly to a distal tip end surface that opposes and is complementary to a nozzle element surface of the nozzle; jetting at least one droplet of the fluid material from the fluid body bore out of the dispensing opening during movement of the plunger toward the dispensing opening; stopping the plunger before any portion of the plunger contacts the nozzle when the planar lower surface of the at least one plate of the piston assembly directly contacts the step of the actuation body member; and subsequently filling the fluid body bore with the fluid material while moving the plunger in the fluid body bore away from the dispensing opening. 9. The method of claim 8 , wherein the moving the plunger includes a spring bearing against the piston assembly to move the plunger towards the dispensing opening. 10. The method of claim 8 , further comprising moving the plunger away from the dispensing opening via a pneumatic system configured to apply air pressure to the piston assembly. 11. The method of claim 8 , wherein the distal tip end surface has a conical shape, and the nozzle element surface has a frustoconical shape.