Foot controller with adjustable treadle

What is claimed is: 1. A foot controller comprising: a base; a treadle assembly comprising: a treadle plate rotatably coupled with the base at a proximal end of the treadle plate and having a variable angular position with respect to the base at a distal end of the treadle plate, the treadle plate further comprising: at least one channel in a surface of the treadle plate that extends in a direction from the proximal end of the treadle plate to the distal end of the treadle plate; at least one rail in the at least one channel; at least one shuttle slidably coupled to the at least one rail; and a plurality of notches on a bottom surface of the treadle plate and substantially adjacent to the distal end of the treadle plate; an adjustable treadle surface member coupled to the treadle plate via the at least one shuttle; and a latch assembly including a lever with a lever distal end arranged in a proximity to a distal end of the adjustable treadle surface member and a lever proximal end extending underneath the treadle plate in a direction towards a proximal end of the treadle plate, wherein the lever proximal end includes at least one protrusion that selectively engages with at least one of the plurality of notches on a bottom surface of the treadle plate, thereby sliding the at least one shuttle on the at least one rail, and thereby adjusting the adjustable treadle surface member relative to the treadle plate. 2. The foot controller of claim 1 , wherein the treadle plate further comprises two channels in the surface of the treadle plate that extends in a direction from the proximal end of the treadle plate to the distal end of the treadle plate, and wherein each of the two channels includes one rail. 3. The foot controller of claim 2 , wherein the treadle plate further comprises two shuttles slidably coupled to each of the rails in the two channels. 4. The foot controller of claim 1 , wherein the latch assembly further comprises: a latch axis pin that acts as a fulcrum to selectively engage the at least one protrusion with at least one of the plurality of notches on a bottom surface of the treadle plate. 5. The foot controller of claim 4 , wherein the adjustable treadle surface member is substantially planar from a heel cup at a proximal end of the adjustable treadle surface member to the distal end of the adjustable treadle surface member. 6. The foot controller of claim 5 , wherein the adjustable treadle surface member further extends downward at the distal end of the adjustable treadle surface member to shield the latch assembly and terminates in an opening. 7. The foot controller of claim 6 , wherein the latch assembly further comprises: a latch button located at the distal end of the lever and extending downward to be substantially positioned in the opening. 8. The foot controller of claim 4 , wherein the latch axis pin separates the lever distal end and the lever proximal end. 9. The foot controller of claim 8 , wherein the latch assembly further comprises: a latch spring located substantially adjacent to the lever distal end between the lever and the adjustable treadle surface member, wherein the latch spring provides resistance to a movement of the lever about the fulcrum and a return force on the lever. 10. The foot controller of claim 1 , further comprising a heel cup at a proximal end of the adjustable treadle surface member. 11. The foot controller of claim 1 , wherein the adjustable treadle surface member comprises a substantially flat surface substantially sized to accommodate an operator's foot. 12. The foot controller of claim 1 , further comprising: a control assembly configured to determine an angular position of the treadle assembly relative to the base and to convert the angular position into a first signal describing the angular position of the treadle assembly. 13. The foot controller of claim 1 , wherein the lever includes a plurality of protrusions that selectively engage with one of the plurality of notches on the bottom surface of the treadle plate. 14. The foot controller of claim 1 , wherein the foot controller is communicatively coupled with a surgical console, and wherein the first signal describing the angular position of the pedal surface is used to control a surgical tool coupled with the surgical console. 15. The foot controller of claim 1 , further comprising: a spring assembly coupled to the base and to the treadle assembly, the spring assembly configured to place the treadle assembly at a default angular position with respect to the base and configured to compress with an application of torque on the treadle assembly by a downward rotational depression of the treadle assembly.