Tank steer system for vehicle

What is claimed is: 1 . A vehicle configured to perform a tank steer operation, comprising: a differential having a differential case; first and second half shafts operably coupled to the differential; a drive unit configured to drive the vehicle; and a gearbox assembly coupled to the drive unit; wherein the vehicle is selectively operable in a tank steer mode that rotates one or more wheels on a first side of the vehicle in a first direction, and rotates one or more wheels on an opposite second side of the vehicle in a second direction opposite the first direction to thereby rotate the vehicle, wherein the vehicle operates in the tank steer mode by selectively grounding the differential case and connecting an output of the gearbox assembly to the first half shaft, such that the drive unit rotates the first half shaft in the first direction and, via the differential, rotates the second half shaft in the opposite second direction. 2 . The vehicle of claim 1 , wherein in the tank steer mode, the differential case is grounded to an axle case. 3 . The vehicle of claim 1 , further comprising a low ratio unit, wherein in the tank steer mode, the differential case is grounded by connecting the differential case to the low ratio unit. 4 . The vehicle of claim 3 , wherein the low ratio unit is a planetary gear set. 5 . The vehicle of claim 4 , wherein a ring gear of the planetary gear set is grounded. 6 . The vehicle of claim 1 , further comprising a set of selectable connectors, including: a first connector coupled to the output of the gearbox assembly; a second connector coupled to the first half shaft; a third connector coupled to the differential case; and a fourth connector coupled to the low ratio unit, wherein in the tank steer mode, the first connector is coupled to the second connector, and the third connector is coupled to the fourth connector. 7 . The vehicle of claim 6 , wherein each connector of the set of selectable connectors is a spline or dog clutch. 8 . The vehicle of claim 6 , wherein in a drive mode, the first connector is coupled to the third connector. 9 . The vehicle of claim 6 , wherein in a low mode, the first connector is coupled to the fourth connector. 10 . The vehicle of claim 6 , wherein in a vehicle park mode, the first, second, and fourth connectors are coupled simultaneously. 11 . The vehicle of claim 1 , further comprising a steering wheel in signal communication with a controller, wherein in the tank steer mode the controller performs a tank steer operation in a direction based at least in part on a left or right orientation of the steering wheel. 12 . The vehicle of claim 1 , wherein only a single drive unit drives the first and second half shafts in the tank steer mode. 13 . The vehicle of claim 1 , wherein the drive unit is an electric traction motor. 14 . The vehicle of claim 1 , wherein the differential is an open differential. 15 . The vehicle of claim 1 , further comprising: a second differential having a second differential case; third and fourth half shafts operably coupled to the second differential; a second drive unit; and a second gearbox assembly coupled to the second drive unit, wherein the vehicle further operates in the tank steer mode by selectively grounding the second differential case and connecting an output of the second gearbox assembly to the third half shaft, such that the second drive unit rotates the third half shaft in the first direction and, via the second differential, rotates the fourth half shaft in the opposite second direction. 16 . A method of performing a vehicle tank steer operation on a vehicle having a plurality of wheels, a differential having a differential case, first and second half shafts operably coupled to the differential, a drive unit configured to drive the vehicle, and a gearbox assembly coupled to the drive unit, the method comprising: receiving, at a controller, a request for a tank steer mode; initiating the tank steer mode by grounding the differential case and connecting an output of the gearbox assembly to the first half shaft; and actuating the drive unit to rotate the first half shaft in a first direction and, via the differential, rotate the second half shaft in a second direction opposite the first direction. 17 . The method of claim 16 , wherein the vehicle further includes a low ratio unit and a set of selectable connectors, including (i) a first connector coupled to the output of the gearbox assembly, (ii) a second connector coupled to the first half shaft, (iii) a third connector coupled to the differential case, and (iv) a fourth connector coupled to the low ratio unit, the method further comprising: when initiating the tank steer mode, coupling the first connector to the second connector, and coupling the third connector to the fourth connector. 18 . The method of claim 17 , wherein the differential is an open differential, the low ratio unit is a planetary gear set, and the drive unit is an electric traction motor.