Mode transition control techniques for an electrically all-wheel drive hybrid vehicle

What is claimed is: 1. A control system for an electrically all-wheel drive (eAWD) hybrid vehicle, the system comprising: an input device configured to receive a driver torque request; and a controller configured to: operate the hybrid vehicle in an electric-only mode including maintaining a torque reserve for an electric motor of the vehicle, wherein during the electric-only mode only the electric motor is providing drive torque to a first axle of the hybrid vehicle; receive, from the input device, the driver torque request; determine to transition the hybrid vehicle from the electric-only mode to a parallel mode based on the driver torque request or a state of charge (SOC) of a battery system that powers the electric motor, wherein during the parallel mode the electric motor is providing drive torque to the first axle and an engine of the vehicle is providing drive torque to a different second axle of the hybrid vehicle via a transmission; and when the driver torque request exceeds a maximum drive torque that the electric motor is capable of generating, increase the drive torque provided by the electric motor to the first axle by depleting the torque reserve while simultaneously synchronizing speeds of the engine and transmission during the electric-only to parallel mode transition. 2. The system of claim 1 , wherein the controller is configured to increase the drive torque provided by the electric motor by depleting the torque reserve to provide an expected acceleration feel for a driver of the vehicle. 3. The system of claim 2 , wherein upon the engine and transmission speeds being synchronized, the controller is further configured to complete the electric-only to parallel mode transition by: decreasing the drive torque provided by the electric motor to the first axle; and increasing the drive torque provided by the engine to the second axle via the transmission, wherein the drive torque provided by the electric motor and the engine via the transmission collectively meet the driver torque request. 4. The system of claim 3 , wherein the controller is configured to decrease the drive torque provided by the electric motor to the first axle to an optimal level for system efficiency. 5. The system of claim 1 , further comprising: an SOC sensor configured to measure the SOC of the battery system, wherein the controller is configured to perform the electric-only to parallel mode transition when the measured SOC of the battery system falls below an SOC threshold indicative of a need to recharge the battery system. 6. The system of claim 5 , wherein upon the engine and transmission speeds being synchronized, the controller is further configured to complete the electric-only to parallel mode transition by: decreasing the drive torque provided by the electric motor to the first axle to zero such that the battery system can be recharged; and increasing the drive torque provided by the engine to the second axle via the transmission to meet the driver torque request. 7. The system of claim 1 , wherein the engine further comprises a belt-driven starter generator (BSG) unit configured to start the engine. 8. The system of claim 1 , wherein the first axle is a rear axle of the vehicle and the second axle is a front axle of the vehicle. 9. A method of performing a mode transition of an electrically all-wheel drive (eAWD) hybrid vehicle, the method comprising: operating, by a controller, the hybrid vehicle in an electric-only mode including maintaining a torque reserve for an electric motor of the vehicle, wherein during the electric-only mode only the electric motor is providing drive torque to a first axle of the hybrid vehicle; receiving, by the controller and from an input device, a driver torque request; determining, by the controller, to transition the hybrid vehicle from the electric-only mode to a parallel mode based on the driver torque request or a state of charge (SOC) of a battery system that powers the electric motor, wherein during the parallel mode the electric motor is providing drive torque to the first axle and an engine of the vehicle is providing drive torque to a different second axle of the hybrid vehicle via a transmission; and when the driver torque request exceeds a maximum drive torque that the electric motor is capable of generating, increasing, by the controller, the drive torque provided by the electric motor to the first axle by depleting the torque reserve while simultaneously synchronizing speeds of the engine and transmission during the electric-only to parallel mode transition. 10. The method of claim 9 , wherein increasing the drive torque provided by the electric motor comprises depleting the torque reserve to provide an expected acceleration feel for a driver of the vehicle. 11. The method of claim 10 , further comprising upon the engine and transmission speeds being synchronized, completing, by the controller, the electric-only to parallel mode transition by: decreasing, by the controller, the drive torque provided by the electric motor to the first axle; and increasing, by the controller, the drive torque provided by the engine to the second axle via the transmission, wherein the drive torque provided by the electric motor and the engine via the transmission collectively meet the driver torque request. 12. The method of claim 11 , wherein decreasing the drive torque provided by the electric motor to the first axle comprises decreasing, by the controller, the drive torque provided by the electric motor to the first axle to an optimal level for system efficiency. 13. The method of claim 9 , further comprising: receiving, by the controller and from an SOC sensor, a measured SOC of the battery system, wherein the electric-only to parallel mode transition is performed when the measured SOC of the battery system falls below an SOC threshold indicative of a need to recharge the battery system. 14. The method of claim 13 , further comprising upon the engine and transmission speeds being synchronized, completing, by the controller, the electric-only to parallel mode transition by: decreasing, by the controller, the drive torque provided by the electric motor to the first axle to zero such that the battery system can be recharged; and increasing, by the controller, the drive torque provided by the engine to the second axle via the transmission to meet the driver torque request. 15. The method of claim 9 , wherein the engine further comprises a belt-driven starter generator (BSG) unit configured to start the engine. 16. The method of claim 9 , wherein the first axle is a rear axle of the vehicle and the second axle is a front axle of the vehicle.