In a hybrid electric vehicle and a control method thereof, a predicted travel route is acquired, required travel energy required for the hybrid electric vehicle to travel in the specific section in an EV drive mode is specified when the predicted travel route includes a specific section where the hybrid electric vehicle is supposed to travel in the EV drive mode, a desired value for the remaining capacity of the battery is set based on the specified required travel energy, a drive mode to be executed from a plurality of drive modes is determined based on the relationship between the actual remaining capacity of the battery and the desired value, until the hybrid electric vehicle enters the specific section. Switching between the EV and an HV drive modes is prohibited, regardless of the relationship, when a predetermined time has not elapsed since the last switching of the drive mode.

A control device for a hybrid vehicle is provided with a driving plan preparing part preparing a driving plan setting one or more via-points on a projected route from a starting point to a destination to divide the projected route into a plurality of driving routes and divide the driving routes further into pluralities of driving sections and setting which driving mode of an EV mode or HV mode to drive over in each driving section and with a driving mode switching part switching the driving modes according to a driving plan. The driving plan preparing part is configured to be able to prepare a driving plan setting the driving modes of all driving sections in at least one driving route to the EV mode.

A control device for a hybrid vehicle is provided with a driving plan preparing part preparing a driving plan setting one or more via-points on a projected route from a starting point to a destination to divide the projected route into a plurality of driving routes and divide the driving routes further into pluralities of driving sections and setting which driving mode of an EV mode or HV mode to drive over in each driving section and with a driving mode switching part switching the driving modes according to a driving plan. The driving plan preparing part is configured to be able to prepare a driving plan setting the driving modes of all driving sections in at least one driving route to the EV mode.

Various embodiments include a method for operating a hybrid drive train for a motor vehicle having an output shaft from an internal combustion engine releasably connected to a shaft of an electric traction machine via a first clutch, wherein the shaft of the electric traction machine is releasably connected to a transmission input shaft via a second clutch. The method may comprise: determining a state parameter for the motor vehicle; and opening either the first clutch or the second clutch for a changeover to coasting operation of the hybrid drive train based on a function of one or more state parameters.

A hybrid vehicle includes an engine, a drive motor selectively operated as a generator to generate electrical energy; a battery charged with the electrical energy generated in the drive motor; a navigation device determining a travelling path of the hybrid vehicle from a departure of the hybrid vehicle to a destination of the hybrid vehicle and an expected vehicle speed of the travelling path; and a controller which divides an entire travelling path of the hybrid vehicle expected by the navigation device into one or more travelling sections based on the travelling information, determines an average vehicle speed of each travelling section, an average vehicle speed of the entire travelling path, and travelling energy of the vehicle in each travelling section, determines an expected State Of Charge (SOC) profile of the battery based on the travelling energy, and determines a charge mode of the battery based on the average vehicle speed and an initial SOC value of the expected SOC profile.

A hybrid vehicle includes an engine, a drive motor selectively operated as a generator to generate electrical energy; a battery charged with the electrical energy generated in the drive motor; a navigation device determining a travelling path of the hybrid vehicle from a departure of the hybrid vehicle to a destination of the hybrid vehicle and an expected vehicle speed of the travelling path; and a controller which divides an entire travelling path of the hybrid vehicle expected by the navigation device into one or more travelling sections based on the travelling information, determines an average vehicle speed of each travelling section, an average vehicle speed of the entire travelling path, and travelling energy of the vehicle in each travelling section, determines an expected State Of Charge (SOC) profile of the battery based on the travelling energy, and determines a charge mode of the battery based on the average vehicle speed and an initial SOC value of the expected SOC profile.

A hybrid power drive system, including a power battery device, a range extender system, and a motor drive system. The power battery device is configured to supply power to the motor drive system. The range extender system includes an engine and a generator. The generator is able to generate power under the driving of the engine to supply the power to the motor drive system and/or charge the power battery device. The hybrid power drive system further includes a vehicle control unit configured to control the engine and/or generator of the range extender system to generate a driving force. The range extender system is mechanically connected to a main coupling mechanism to transmit the generated driving force to a main drive axle of a vehicle by means of the main coupling mechanism to drive wheels on both sides of the axle to rotate. Also provided is a vehicle having the hybrid power drive system. According to the hybrid power drive system and the vehicle having same, the vehicle control unit is utilized to control the engine and/or generator of the range extender system to generate the driving force for different application operating conditions, and thus the economy of the vehicle can be effectively improved.

Route planning for a hybrid electric vehicle (HEV) includes obtaining respective engine activation actions for at least some road segments of a route between an origin and a destination by optimizing for at least one of a noise level or energy consumption of an engine of the HEV that is used to charge a battery of the HEV. The HEV is then controlled to follow the at least some of the road segments of the route and to activate the engine according to the respective engine activation actions. Controlling the HEV to follow the at least some of the road segments includes masking at least one of the respective engine activation actions for a current road segment by increasing a volume of an entertainment system of the HEV.

Route planning for a hybrid electric vehicle (HEV) includes obtaining respective engine activation actions for at least some road segments of a route between an origin and a destination by optimizing for at least one of a noise level or energy consumption of an engine of the HEV that is used to charge a battery of the HEV. The HEV is then controlled to follow the at least some of the road segments of the route and to activate the engine according to the respective engine activation actions. Controlling the HEV to follow the at least some of the road segments includes masking at least one of the respective engine activation actions for a current road segment by increasing a volume of an entertainment system of the HEV.

A system for a vehicle includes a powertrain configured to propel the vehicle, and a controller configured to, during a first lap of the vehicle around a track, identify a portion of the track corresponding to a correlation of velocity, throttle position, and steering angle values indicative of a maximum power threshold, and, during a second lap, responsive to approaching the portion, limit power output by the powertrain causing temperature of the powertrain to fall and, upon entering the portion, increase power output to the maximum power threshold causing the temperature to rise, such that a difference in temperature between initiation of the limiting and exiting of the portion approaches zero.