Dual ratio constant mesh gearbox

What is claimed is: 1. A dual ratio constant mesh gearbox, comprising: a housing; an input drive shaft at least partially contained within said housing, wherein said input drive shaft is coupled to a vehicle propulsion electric motor; a sun gear rigidly coupled to said input drive shaft; a ring gear; a set of planetary gears interposed between said sun gear and said ring gear, wherein said set of planetary gears are in constant mesh with said sun gear and said ring gear; a planetary gear carrier coupled to said set of planetary gears and to an output drive shaft, wherein said output drive shaft is at least partially contained within said housing; a sprag clutch assembly contained within said housing, wherein said sprag clutch assembly permits rotation of said ring gear in a first direction and prevents rotation of said ring gear in a second direction; a second clutch assembly separate and independent of said sprag clutch assembly, wherein engaging said second clutch assembly locks said ring gear to said sun gear, and wherein disengaging said second clutch assembly unlocks said ring gear from said sun gear; and a band brake translatable from at least a first position to a second position, wherein said band brake in said first position permits rotation of said ring gear within said housing, and wherein said band brake in said second position prevents rotation of said ring gear within said housing. 2. The dual ratio constant mesh gearbox of claim 1 , said second clutch assembly comprising a multi-plate clutch assembly. 3. The dual ratio constant mesh gearbox of claim 1 , further comprising a pressure plate actuator, wherein a first centerline corresponding to said pressure plate actuator is axially aligned with a second centerline corresponding to said output drive shaft, and wherein a position corresponding to said pressure plate actuator determines whether said second clutch assembly is engaged or disengaged. 4. The dual ratio constant mesh gearbox of claim 3 , further comprising a positioning motor coupled to said pressure plate actuator, wherein said positioning motor controls said position of said pressure plate actuator. 5. The dual ratio constant mesh gearbox of claim 1 , wherein said dual ratio constant mesh gearbox operates in a direct drive mode when said second clutch assembly is engaged and said ring gear is locked to said sun gear, wherein said sun gear and said set of planetary gears and said ring gear rotate within said housing as a single unit when said ring gear is locked to said sun gear, and wherein said input drive shaft is directly coupled to said output drive shaft causing said input and output drive shafts to rotate at the same rate when said ring gear is locked to said sun gear. 6. The dual ratio constant mesh gearbox of claim 1 , wherein said dual ratio constant mesh gearbox operates in an under drive reverse mode when said second clutch assembly is disengaged and said band brake is in said second position, wherein reverse input torque applied by said vehicle propulsion electric motor to said input drive shaft when said dual ratio constant mesh gearbox is operating in said under drive reverse mode generates a reaction torque on said ring gear in said first direction, wherein rotation of said ring gear in said first direction is permitted by said sprag clutch and prevented by said band brake in said second position thereby causing reverse vehicle torque to be applied to at least one vehicle wheel by said planetary gear carrier and said output drive shaft. 7. The dual ratio constant mesh gearbox of claim 1 , wherein said dual ratio constant mesh gearbox operates in an under drive mode when said second clutch assembly is disengaged and said ring gear is unlocked from said sun gear, wherein forward input torque applied by said vehicle propulsion electric motor to said input drive shaft generates a reaction torque on said ring gear in said second direction, wherein rotation of said ring gear in said second direction is prevented by said sprag clutch assembly causing forward vehicle torque to be applied to at least one vehicle wheel by said planetary gear carrier and said output drive shaft. 8. The dual ratio constant mesh gearbox of claim 1 , further comprising: a controller coupled to said vehicle propulsion electric motor; a motor speed sensor coupled to said controller; and an output drive shaft speed sensor coupled to said controller, wherein upon an initiation of a downshift from a direct drive mode to an under drive mode said controller is configured to increase a motor speed corresponding to said vehicle propulsion electric motor based on a current output drive shaft speed and an under drive gear ratio. 9. The dual ratio constant mesh gearbox of claim 1 , further comprising: a controller coupled to said vehicle propulsion electric motor; a motor speed sensor coupled to said controller; and an output drive shaft speed sensor coupled to said controller, wherein upon an initiation of an upshift from an under drive mode to a direct drive mode said controller is configured to decrease a motor speed corresponding to said vehicle propulsion electric motor based on a current output drive shaft speed. 10. A dual ratio constant mesh gearbox, comprising: a housing; an input drive shaft at least partially contained within said housing, wherein said input drive shaft is coupled to a vehicle propulsion electric motor; a sun gear rigidly coupled to said input drive shaft; a ring gear; a set of planetary gears interposed between said sun gear and said ring gear, wherein said set of planetary gears are in constant mesh with said sun gear and said ring gear; a planetary gear carrier coupled to said set of planetary gears and to an output drive shaft, wherein said output drive shaft is at least partially contained within said housing; a sprag clutch assembly contained within said housing, wherein said sprag clutch assembly permits rotation of said ring gear in a first direction and prevents rotation of said ring gear in a second direction; a second clutch assembly separate and independent of said sprag clutch assembly, wherein engaging said second clutch assembly locks said ring gear to said sun gear, and wherein disengaging said second clutch assembly unlocks said ring gear from said sun gear; a pressure plate actuator, wherein a first centerline corresponding to said pressure plate actuator is axially aligned with a second centerline corresponding to said output drive shaft, and wherein a position corresponding to said pressure plate actuator determines whether said second clutch assembly is engaged or disengaged; a positioning motor coupled to said pressure plate actuator, wherein said positioning motor controls said position of said pressure plate actuator; a controller coupled to said vehicle propulsion electric motor and to said positioning motor; and a motor speed sensor coupled to said controller, wherein said controller is configured to automatically upshift from an under drive mode to a direct drive mode and configured to automatically downshift from said direct drive mode to said under drive mode based on a current motor speed and a set of preprogrammed shift instructions, wherein said dual ratio constant mesh gearbox operates in said under drive mode when said second clutch assembly is disengaged and said ring gear is unlocked from said sun gear, and wherein said dual ratio constant mesh gearbox operates in a direct drive mode when said second clutch assembly is engaged and said ring gear is locked to said sun gear. 11. The dual ratio constant mesh gearbox of claim 10 , further comprising a drive mode selector switch coupled to said controller, wherein sai