Automated manual transmission with electric motor-generator

The invention claimed is: 1. A combination of an engine and a transmission comprising: an input shaft rotatable about a first axis of rotation; a countershaft arranged substantially parallel with the input shaft and rotatable about a second axis of rotation; an output member operatively connected to rotate in unison with the countershaft; multiple pairs of intermeshing gears; wherein each of the pairs of intermeshing gears includes a respective synchronizable gear that rotates about one of the input shaft and the countershaft, and a respective fixed gear mounted to the other one of the input shaft and the countershaft to rotate in unison therewith; each pair of intermeshing gears establishing a different gear ratio of torque of the countershaft to torque of the input shaft when the respective synchronizable gear is operatively engaged with said one of the input shaft and the countershaft; an electric motor having a rotor concentric with and rotatable about the first axis of rotation; a plurality of selectively engageable synchronizers including a first synchronizer and a second synchronizer; wherein each of the pairs of intermeshing gears requires engagement of at least one of the synchronizers to synchronize the respective synchronizable gear with said one of the input shaft and the countershaft; wherein the first synchronizer is selectively engageable to synchronize rotation of the rotor with the input shaft, wherein the second synchronizer is selectively engageable to synchronize rotation of the rotor with one of said synchronizable gears which rotates about the input shaft; the electric motor thereby being operable to apply torque at the input shaft when the first synchronizer is engaged; a transmission controller operable to control engagement of the synchronizers; a first gear mounted to the input shaft to rotate about the first axis of rotation in unison with the input shaft; a second gear mounted to the dual synchronizer to rotate in unison with the dual synchronizer and the countershaft, and axially aligned with but free from contact with the first gear; an idler gear axially movable to mesh with both the first gear and the second gear to transfer torque from the input shaft to the countershaft at a reverse speed ratio between the input shaft and the countershaft; wherein the engine is operatively connectable to the input shaft to add torque at the input shaft; wherein the first synchronizer is engaged and the electric motor is powered to add torque to the input shaft when the engine is operatively connected to the input shaft during an upshift from one of said gear ratios to a numerically lower one of said gear ratios; wherein the multiple pairs of intermeshing gears include a first pair, a second pair, and a third pair of intermeshing gears providing a first gear ratio, a second gear ratio, and a third gear ratio having respective decreasing numerical ratios of torque of the countershaft to torque of the input shaft; and wherein the plurality of selectively engageable synchronizers includes a dual synchronizer selectively engageable to synchronize rotation of the synchronizable gear of the first pair of intermeshing gears with one of the input shaft and the countershaft and alternately selectively engageable to synchronize rotation of the synchronizable gear of the third pair of intermeshing gears with said one of the input shaft and the countershaft. 2. The combination of the engine and the transmission of claim 1 , wherein the second synchronizer is selectively engageable to synchronize rotation of the rotor with the synchronizable gear of the second pair of intermeshing gears. 3. The combination of the engine and the transmission of claim 1 , wherein the dual synchronizer synchronizes rotation of the synchronizable gear of the first pair of intermeshing gears with the countershaft and alternately synchronizes rotation of the synchronizable gear of the third pair of intermeshing gears with the countershaft. 4. The combination of the engine and the transmission of claim 1 , wherein the electric motor is powered to add torque to the input shaft from a speed of the countershaft less than a predetermined speed at which the upshift occurs to a speed to the countershaft greater than the predetermined speed. 5. The combination of the engine and the transmission of claim 1 ; and further comprising: a clutch selectively engageable to operatively connect the engine to the input shaft; and wherein the first synchronizer and any other one of the synchronizers are engaged and the electric motor is powered to add torque to the input shaft when the clutch is disengaged, thereby establishing an electric-only operating mode. 6. The combination of the engine and the transmission of claim 1 ; and wherein the first synchronizer and any other one of the synchronizers are engaged and the electric motor is powered to function as a generator when the engine is on and operatively connected to the input shaft, thereby reducing torque at the countershaft in a regenerative braking operating mode. 7. The combination of the engine and the transmission of claim 1 ; and further comprising: an energy storage device operatively connected to the electric motor; and wherein the first synchronizer is engaged and the electric motor is powered to function as a generator when the engine is on and operatively connected to the input shaft, the engine thereby charging the energy storage device. 8. The combination of the engine and the transmission of claim 1 ; and wherein the first synchronizer is engaged and the electric motor is powered thereby adding torque to the input shaft and starting the engine when the engine is operatively connected to the input shaft. 9. A combination of an engine and a transmission comprising: an input shaft rotatable about a first axis of rotation; a countershaft arranged substantially parallel with the input shaft and rotatable about a second axis of rotation; an output member operatively connected to rotate in unison with the countershaft; a first pair, a second pair, and a third pair of intermeshing gears providing a first, a second, and a third respective decreasing numerical ratio of torque of the countershaft to torque of the input shaft; wherein each of the pairs of intermeshing gears includes a respective synchronizable gear that rotates about one of the input shaft and the countershaft, and a respective fixed gear mounted to the other one of the input shaft and the countershaft to rotate in unison therewith; an electric motor having a rotor concentric with and rotatable about the first axis of rotation; a plurality of selectively engageable synchronizers including a first synchronizer and a second synchronizer; wherein each of the pairs of intermeshing gears requires engagement of at least one of the synchronizers to synchronize the respective synchronizable gear with said one of the input shaft and the countershaft; wherein the first synchronizer is selectively engageable to synchronize rotation of the rotor with the input shaft, wherein the second synchronizer is selectively engageable to synchronize rotation of the rotor with the synchronizable gear of the second pair of intermeshing gears; a transmission controller operable to control engagement of the synchronizers; a first gear mounted to the input shaft to rotate about the first axis of rotation in unison with the input shaft; a second gear mounted to the dual synchronizer to rotate in unison with the dual synchronizer and the countershaft, and axially aligned with and free from contact with the first gear; an idler gear axially movable to mesh with both the first gear and the second gear to transfer torque from the input shaft to the count