Waste heat recovery hybrid power drive

The invention claimed is: 1. A method, comprising: controlling a mechanical linkage of a waste heat recovery (WHR) hybrid power drive system, the WHR hybrid power drive system comprising a WHR power unit to convert thermal energy into rotation of a WHR drive shaft, a motor/generator operable as a motor or a generator, the motor/generator having a motor/generator drive shaft, and the mechanical linkage being independently coupled to each of the WHR drive shaft, the motor/generator drive shaft, and an output shaft, the controlling of the mechanical linkage linking the output shaft to the WHR drive shaft, thereby causing the rotation of the WHR drive shaft to be transferred to a rotation of the output shaft; controlling the mechanical linkage to delink the output shaft from the WHR drive shaft; and controlling the mechanical linkage to link the output shaft to the motor/generator drive shaft, thereby causing a rotation of the output shaft to be transferred to a rotation of the motor/generator drive shaft. 2. The method of claim 1 , further comprising: controlling a first decoupling device coupled to the WHR drive shaft and the mechanical linkage to allow rotation of the WHR drive at a speed that is different from a speed of rotation of the output shaft; and controlling a second decoupling device coupled to the motor/generator drive shaft and the mechanical linkage to allow rotation of the motor/generator drive shaft at a speed that is different from the speed of rotation of the output shaft. 3. The method of claim 1 , wherein controlling the mechanical linkage to link the output shaft to the motor/generator drive shaft includes controlling the motor/generator to operate as a generator. 4. The method of claim 1 , further comprising controlling the mechanical linkage to delink the output shaft from the motor/generator drive shaft, and controlling the mechanical linkage to link the WHR drive shaft to the motor/generator drive shaft, thereby allowing power transfer between the WHR drive shaft and the motor/generator drive shaft. 5. The method of claim 1 , further comprising detecting that the vehicle is braking prior to controlling the mechanical linkage to delink the output shaft from the WHR drive shaft and controlling the mechanical linkage to link the output shaft to the motor/generator drive shaft. 6. The method of claim 5 , further comprising operating the motor/generator as a generator, thereby converting mechanical energy from the output shaft into electrical energy to charge a battery. 7. The method of claim 1 , further comprising controlling the mechanical linkage to link the output shaft to both the motor/generator drive shaft and the WHR drive shaft, thereby causing a rotation of the output shaft to be simultaneously and proportionally transferred to the rotation of the motor/generator drive shaft and the WHR drive shaft.