Abstract: A plug-in hybrid electric vehicle includes an internal combustion engine driving a pair of wheels on a first axle and a transmission drivingly connecting the internal combustion engine and the wheels on a first axle. An integrated starter-generator is mounted on the internal combustion engine crankshaft between said internal combustion engine and the transmission. The vehicle further includes an electric motor driving a pair of wheels on a first axle and a main battery pack connected to a further electric motor arranged to supply electric power for driving the wheels on a second axle. The electric drive means can comprise one electric motor driving the second axle via a differential, two electric motors each driving one half of the second axle or two electric wheel motors for the respective wheels on the second axle. An additional battery is connected to the integrated starter-generator for starting the engine.

Abstract: A battery protection device for protecting a battery (1;41) comprises an electrical circuit arranged to generate or suppress a ripple current through said battery. Said electrical circuit comprises a ripple generator arranged to produce an electrical ripple current, a first ripple injector (21;48) to be arranged on a positive power line to the battery, said first ripple injector being arranged to transfer said electrical ripple current to said positive power line, and a second ripple injector (22;49) to be arranged on a negative power line to the battery. Said second ripple injector is arranged to transfer said electrical ripple current to said negative power line. Said first and second ripple injector are arranged to operate in a differential mode, e.g. opposite sign on injected current.

Abstract: A method and system for controlling regenerative braking of a hybrid electric vehicle. The regenerative braking system includes a driver-operable brake pedal, a hydraulically actuated friction brake for at least one front wheel, an anti-lock braking system hydraulically connected to the hydraulically actuated friction brake, and an electrically actuated friction brake for at least one rear wheel. The regenerative braking system further includes an electric machine connected to the at least one rear wheel and capable of performing regenerative braking of the at least one rear wheel, and an electronic control unit that controls the stability of the hybrid electric vehicle. The regenerative braking system is configured to provide increased braking torque of the front hydraulically actuated friction brake by means of the anti-lock braking system for compensating a decreased or limited rear wheel braking torque initiated by the electronic control unit.

Abstract: A charging circuit includes first and second input terminals connecting the circuit to first and second supply terminals, respectively, of a DC power source, first and second output terminals providing an output voltage to a load to be charged, a first switch between the first and second input terminals, a current sensor between the first input terminal and the first output terminal in series with the first switch, a connecting element having first and second inductance connectors for connecting an inductance, the first inductance connector connected to the switch and the second inductance connector connected to the first output terminal, and a diode element connected to the first inductance connector and the second output terminal. The first switch and the current sensor are arranged to be connected to a control circuit arranged for controlling operation of the first switch in response to a signal received from the current sensor.

Abstract: A plug-in hybrid electric vehicle has an internal combustion engine with a coolant outlet connected to a coolant inlet of a fuel operated heater and wherein a coolant outlet of the fuel operated heater is connected to a coolant inlet of an HVAC heater, a coolant outlet of the HVAC heater further being connected to a coolant inlet of the internal combustion engine. The vehicle also has a temperature sensor at the coolant outlet of the internal combustion engine and a temperature sensor at the coolant outlet of the fuel operated heater. The vehicle has a three way valve arranged between the coolant outlet of the HVAC heater and the coolant inlet of the internal combustion engine such that there is a connection between the coolant outlet of the HVAC heater and the coolant inlet of the fuel operated heater, the connection bypassing the internal combustion engine.

Abstract: A method and system for controlling regenerative braking of a hybrid electric vehicle. The regenerative braking system has a driver-operable brake pedal, a hydraulically actuated friction brake for at least one front wheel, an anti-lock braking system hydraulically connected to said hydraulically actuated friction brake, and an electrically actuated friction brake for at least one rear wheel. The regenerative braking system further comprises an electric machine connected to said at least one rear wheel and capable of performing regenerative braking of said at least one rear wheel, and an electronic control unit that controls the stability of said hybrid electric vehicle, wherein said regenerative braking system is configured to provide increased braking torque of said front hydraulically actuated friction brake by means of said anti-lock braking system for compensating a decreased or limited rear wheel braking torque initiated by said electronic control unit.

Abstract: A battery protection device for protecting a battery (1;41) comprises an electrical circuit arranged to generate or suppress a ripple current through said battery. Said electrical circuit comprises a ripple generator arranged to produce an electrical ripple current, a first ripple injector (21;48) to be arranged on a positive power line to the battery, said first ripple injector being arranged to transfer said electrical ripple current to said positive power line, and a second ripple injector (22;49) to be arranged on a negative power line to the battery. Said second ripple injector is arranged to transfer said electrical ripple current to said negative power line. Said first and second ripple injector are arranged to operate in a differential mode, e.g. opposite sign on injected current.

Abstract: An arrangement (1) for measuring current on a high voltage battery (12) for an electrical vehicle, wherein the battery comprises a service disconnect switch (13) which is adapted to break the connection between the positive battery terminal (14) and the positive battery output terminals (15). The connection between the positive battery terminal (14) and the positive battery output terminals (15) comprises an external circuit line (21) extending out of the service disconnect switch (13) such that a loop is created, which is adapted to receive a current clamp for measuring the current through the circuit line (21).

Abstract: A charging circuit includes first and second input terminals connecting the circuit to first and second supply terminals, respectively, of a DC power source, first and second output terminals providing an output voltage to a load to be charged, a first switch between the first and second input terminals, a current sensor between the first input terminal and the first output terminal in series with the first switch, a connecting element having first and second inductance connectors for connecting an inductance, the first inductance connector connected to the switch and the second inductance connector connected to the first output terminal, and a diode element connected to the first inductance connector and the second output terminal. The first switch and the current sensor are arranged to be connected to a control circuit arranged for controlling operation of the first switch in response to a signal received from the current sensor.

Abstract: A plug-in hybrid electric vehicle includes an internal combustion engine driving a pair of wheels on a first axle and a transmission drivingly connecting the internal combustion engine and the wheels on a first axle. An integrated starter-generator is mounted on the internal combustion engine crankshaft between said internal combustion engine and the transmission. The vehicle further includes an electric motor driving a pair of wheels on a first axle and a main battery pack connected to a further electric motor arranged to supply electric power for driving the wheels on a second axle. The electric drive means can comprise one electric motor driving the second axle via a differential, two electric motors each driving one half of the second axle or two electric wheel motors for the respective wheels on the second axle. An additional battery is connected to the integrated starter-generator for starting the engine.