Dampers at the main shift rod

What is claimed is: 1. A rail selector for use with a compound transmission shift mechanism, comprising: a plurality of gears configured on at least one transmission shaft; a synchronizer configured on at least two of the plurality of gears; a control system configured to engage and position the synchronizer into alignment with at least two gears on the transmission shaft; a damping assembly on the control system and operatively connected to the synchronizer, and configured to translate movement of a shift lever through a shift rail and through shift forks that are configured to engage the synchronizer; wherein the damping assembly includes a rail selector having wings, operatively connected to the shift forks that extend in a lateral direction from a shaft passing axially through a center of the damping assembly. 2. The rail selector of claim 1 , wherein the laterally extending wings include a first laterally extending wing configured on a first side of the damping assembly and a second laterally extending wing configured on a second side of the damping assembly, opposite the first side. 3. The rail selector of claim 1 , wherein the control system includes the shift rail operatively connected to the shift forks. 4. The rail selector of claim 1 , wherein the control system supports the damping assembly. 5. The rail selector of claim 1 , wherein the control system includes at least one adjustment mechanism interconnected to the shift rail. 6. The rail selector of claim 5 , wherein the at least one adjustment mechanism includes at least one detent plunger operatively connected to the shift rail through a detent ramp, the adjustment mechanism configured to at least one of minimize or eliminate free play when shifting the compound transmission. 7. The rail selector of claim 6 , wherein the detent ramp includes an indented center section with outwardly and inwardly sloped ramps configured forward and aft of the indented center section. 8. The rail selector of claim 6 , wherein the detent plunger has a length of approximately 25 mm to 40 mm. 9. The rail selector of claim 1 , wherein the damping assembly includes at least one damping element constructed of an absorbing element and configured to absorb movement in at least one of the plurality of gears. 10. The rail selector of claim 1 , wherein the synchronizer includes at least one fixed synchronization hub configured between at least two synchronizing rings, which are positioned between two gear flanges. 11. The rail selector of claim 10 , wherein the synchronizer includes a pre-energizer configured with at least one of a roller, a plunger and a spring. 12. A transmission shift mechanism, comprising: two or more gears configured on a transmission shaft; a synchronizer configured to engage two of the two or more gears; and a control system including shift forks and a main shift rail damping assembly operatively connected to engage and position the synchronizer into alignment with the two gears, wherein the damping assembly includes a rail selector having laterally extending wings operatively connected to the shift forks; wherein the synchronizer includes a pre-energizer configured with at least one of a roller, a plunger and a spring; and wherein the synchronizer includes at least one fixed synchronization hub configured between at least two synchronizing rings, which are positioned between two gear flanges. 13. The shift mechanism of claim 12 , wherein the laterally extending wings include a first laterally extending wing configured on a first side of the damping assembly and a second laterally extending wing configured on a second side of the damping assembly, opposite the first side. 14. The shift mechanism of claim 12 , wherein the control system supports the damping assembly, and the damping system is configured to translate movement of a shift lever through a shift rail and through the shift forks. 15. The shift mechanism of claim 12 , the synchronizer further comprising a synchronization ring and a sliding sleeve configured to engage and mesh each other through a plurality of chamfered gears correspondingly configured on each. 16. The shift mechanism of claim 12 , the control system further including an adjustment mechanism interconnected to at least one of a plurality of shift rails. 17. The shift mechanism of claim 16 , wherein the adjustment mechanism includes a detent plunger operatively connected to a main shift rail through a detent ramp, the adjustment mechanism configured to at least one of minimize and eliminate a free play when shifting a compound transmission. 18. The shift mechanism of claim 17 , wherein the detent ramp includes an indented center section with outwardly and inwardly sloped ramps configured forward and aft of the indented center section. 19. The shift mechanism of claim 17 , wherein the detent plunger has a length of approximately 30 mm to 35 mm. 20. The shift mechanism of claim 17 , wherein the control system is configured to engage and position the synchronizer into the alignment.