Variator for work vehicle drivetrain

What is claimed is: 1. A work vehicle drivetrain, comprising: an engine; an auxiliary power takeoff (PTO) shaft coupled to the engine and rotatable about a primary power path axis when driven by the engine; and a variator assembly, comprising: a variator motor; a variator gearbox containing a planetary gear system coupled to the variator motor and to the auxiliary PTO shaft, the planetary gear system rotatable about a planetary axis substantially parallel and offset from the primary power path axis; and a primary gearbox output driven by the variator gearbox; wherein the variator gearbox is configured to sum to the primary gearbox output an output of the variator motor and an output of the engine when driving wheels of the work vehicle. 2. The work vehicle drivetrain of claim 1 , wherein the variator motor comprises a variator motor shaft rotatable about an axis coaxial with the planetary axis. 3. The work vehicle drivetrain of claim 2 , further comprising: a rotatable output member rotatable about the primary power path axis; and a coupler gear rotatable about the planetary axis and mechanically coupling the planetary gear system to the rotatable output member. 4. The work vehicle drivetrain of claim 3 , wherein the rotatable output member has a longitudinal channel therethrough through which the auxiliary PTO shaft extends. 5. The work vehicle drivetrain of claim 1 , further comprising a variator input shaft mechanically coupled between the engine and the planetary gear system. 6. The work vehicle drivetrain of claim 5 , wherein the auxiliary PTO shaft is coupled to the variator input shaft in a rotationally-fixed relationship. 7. The work vehicle drivetrain of claim 5 , wherein the planetary gear system comprises a first sun gear rotationally fixed to the variator input shaft. 8. The work vehicle drivetrain of claim 5 wherein the planetary gear system comprises: a set of planet gears; a carrier supporting the set of planet gears and serving as a mechanical output of the planetary gear system. 9. The work vehicle drivetrain of claim 5 wherein the planetary gear system comprises a ring gear through which the variator input shaft is coupled to the planetary gear system. 10. The work vehicle drivetrain of claim 9 further comprising: a tubular extension fixedly coupled to the ring gear and having a longitudinal channel therethrough; and an elongated rotating coupling extending within the longitudinal channel to mechanically couple the variator motor to the planetary gear system. 11. The work vehicle drivetrain of claim 1 , wherein the work vehicle drivetrain is configured to be deployed onboard a work vehicle having a working ground speed range, and wherein the work vehicle further comprises: a transmission having a plurality of stepped gear ratio settings; and a controller operably coupled to the engine, to the transmission, and to the variator motor, the controller configured to control the variator motor to at least partially linearize the stepped gear ratio settings of the transmission. 12. The work vehicle of claim 11 , wherein the controller controls the engine to remain substantially at a constant speed over at least a majority of the working ground speed range of the work vehicle. 13. A variator assembly for a work vehicle having an engine and ground-engaging wheels, comprising: a variator motor; a variator gearbox, comprising: a gearbox housing to which the variator motor is mounted; a variator input shaft extending in the variator gearbox housing and rotatable with respect thereto about a primary power path axis; and a planetary gear system disposed within the variator gearbox housing, mechanically coupled to the variator motor and to the variator input shaft, and rotatable about a planetary axis substantially parallel to and offset from the primary power path axis; and a primary gearbox output driven by a variator gearbox; wherein, when the variator assembly is coupled to the work vehicle, the variator gearbox is configured to sum to the primary gearbox output an output of the variator motor and an output of the engine when driving the ground-engaging wheels. 14. The variator assembly of claim 13 , wherein the variator motor comprises a variator motor input/output (I/O) shaft rotatable about an axis coaxial with the planetary axis. 15. The variator assembly of claim 13 , wherein the planetary gear system comprises: a ring gear through which the variator input shaft is mechanically coupled to the planetary gear system; and a sun gear through which the variator motor is mechanically coupled to the planetary gear system. 16. The variator assembly of claim 15 , wherein the planetary gear system further comprises: a set of planet gears engaging the ring and sun gears; and a carrier supporting the set of planet gears and serving as a mechanical output of the planetary gear system. 17. The variator assembly of claim 16 , further comprising: a rotatable output member rotatable about the primary power path axis; and a coupler gear rotatable about the planetary axis and mechanically coupling the carrier to the rotatable output member. 18. A variator gearbox for a work vehicle having an engine and ground-engaging wheels, comprising: a gearbox housing; a variator input shaft extending in the variator gearbox housing and rotatable with respect thereto about a primary power path axis; a planetary gear system disposed within the variator gearbox housing and rotatable about a planetary axis substantially parallel to and offset from the primary power path axis; and a primary gearbox output; wherein, when the variator gearbox is coupled to the work vehicle, the planetary gear system is configured to sum to the primary gearbox output an output of a variator motor and an output of the engine when driving the ground-engaging wheels. 19. The variator gearbox of claim 18 , wherein the planetary gear system comprises a ring gear through which the variator input shaft is mechanically coupled to the planetary gear system.