Methods and systems for a two-speed accessory drive of an engine

The invention claimed is: 1. A method for a vehicle, comprising: responsive to an electrical demand being higher than a threshold electrical demand, operating an electric machine of the vehicle in a motor mode to reduce a first speed of a grounding gear of a planetary gear set of a two-speed accessory drive (TSAD) of the vehicle; and engaging an electromagnetic clutch responsive to the first speed of the grounding gear reaching a clutch engagement threshold speed. 2. The method of claim 1 , wherein the electric machine is a belt-integrated starter generator (BISG) coupled to a drive belt of the TSAD. 3. The method of claim 1 , wherein operating the electric machine in the motor mode to reduce the first speed of the grounding gear includes increasing a second speed of an output gear of the planetary gear set via the electric machine, while maintaining a third speed of an input gear of the planetary gear set constant. 4. The method of claim 3 , wherein increasing the second speed of the output gear via the electric machine comprises increasing the second speed of the output gear to a target speed, the target speed greater than an engine speed of the vehicle and based on a gear ratio of the planetary gear set. 5. The method of claim 4 , wherein the gear ratio is 1.6:1. 6. The method of claim 3 , wherein increasing the second speed of the output gear via the electric machine further comprises increasing a speed of a drive belt of the TSAD, the drive belt coupled to the output gear. 7. The method of claim 6 , wherein the planetary gear set includes a ring gear, a sun gear, and a plurality of planet gears coupled to a carrier, where the ring gear is the output gear, the carrier acts as the input gear, and the sun gear is the grounding gear, and where the ring gear functions as a pulley coupled to a drive belt of the TSAD. 8. The method of claim 1 , further comprising: disengaging the electromagnetic clutch responsive to the electrical demand decreasing below the threshold electrical demand and operating the electric machine in the motor mode; and increasing the first speed of the grounding gear of the planetary gear set of the TSAD via the electric machine in the motor mode after disengaging the electromagnetic clutch. 9. The method of claim 8 , further comprising: driving the output gear via a one-way clutch of the TSAD responsive to the first speed of the grounding gear reaching an engine speed; and switching the electric machine to the generator mode responsive to the first speed of the grounding gear reaching the engine speed. 10. A system for a vehicle, comprising: an engine including a crankshaft; a two-speed accessory drive (TSAD) rotationally coupled to the crankshaft, the TSAD comprising a planetary gear set including an output gear and an electromagnetic clutch; and a controller with computer readable instructions stored on non-transitory memory that when executed during operation of the vehicle, cause the controller to: responsive to an electrical demand being higher than a threshold electrical demand, increase a speed of the output gear of the planetary gear set; and responsive to the speed of the output gear achieving a target speed, engage the electromagnetic clutch, wherein the planetary gear set further includes an input gear and a grounding gear, and wherein the controller includes further instructions stored on the non-transitory memory that, when executed, cause the controller to: maintain a speed of the input gear of the planetary gear set constant and reduce a speed of the grounding gear while increasing the speed of the output gear. 11. The system of claim 10 , wherein increasing the speed of the output gear decreases the speed of the grounding gear below a threshold speed, and the controller includes further instructions stored in the non-transitory memory that, when executed, caused the controller to: engage the electromagnetic clutch responsive to the speed of the grounding gear reaching the threshold speed. 12. The system of claim 11 , wherein the TSAD further comprises a one-way clutch coupled to the crankshaft, and wherein upon increasing the speed of the output gear above a crankshaft speed, the one-way clutch of the TSAD is over-run. 13. The system of claim 12 , wherein the controller includes further instructions stored in the non-transitory memory that, when executed, caused the controller to: responsive to the electrical demand decreasing below the threshold electrical demand, disengage the electromagnetic clutch; and decrease the speed of the output gear until the one-way clutch becomes engaged. 14. The system of claim 13 , further comprising an electric machine coupled to the output gear via a drive belt of the TSAD, and wherein the controller includes further instructions stored in the non-transitory memory that, when executed, cause the controller to: operate the electric machine in a motor mode to increase the speed of the output gear via the drive belt responsive to the electrical demand being higher than the threshold electrical demand; and operate the electric machine in the motor mode to decrease the speed of the output gear via the drive belt responsive to the electrical demand decreasing below than the threshold electrical demand. 15. A method for a two-speed accessory drive (TSAD) of a vehicle, comprising: in a first condition, increasing a speed of an output gear of a planetary gear set of the TSAD to reduce a speed of a grounding gear of the planetary gear set; in a second condition, decreasing the speed of the output gear of the planetary gear set to increase the speed of the grounding gear, wherein increasing the speed of the output gear of the planetary gear set comprises operating an electric machine to apply a first torque to a drive belt coupling the electric machine and the output gear, and wherein decreasing the speed of the output gear of the planetary gear set comprises operating the electric machine to apply a second torque to the drive belt coupling the electric machine and the output gear; and in the first condition, engaging an electromagnetic clutch to couple the grounding gear after reducing the speed of the grounding gear to a clutch engagement threshold speed; and in the second condition, disengaging the electromagnetic clutch before increasing the speed of the grounding gear to the engine speed. 16. The method of claim 15 , wherein engaging the electromagnetic clutch transmits torque from an engine crankshaft to the output gear via a planetary gear set, and wherein disengaging the electromagnetic clutch transmits torque from the engine crankshaft to the output gear via a one-way clutch.