| CPC B60L 58/12 (2019.02) [B60L 2210/10 (2013.01)] | 3 Claims |
|
1. A vehicle control device that is configured to control an electric vehicle, the electric vehicle comprising an electric motor that is a driving power source, a high voltage battery that is configured to output a high voltage for driving the electric motor, an in-vehicle device that is configured to operate at a low voltage, and a low voltage battery that is configured to output the low voltage for operating the in-vehicle device, the vehicle control device comprising:
an inverter that is configured to drive the electric motor using a voltage output from the high voltage battery;
a DC/DC converter that is configured to step down the voltage output from the high voltage battery and that is configured to output a voltage used for charging the low voltage battery or operating the in-vehicle device;
a main switch that is configured to switch an input of the voltage output from the high voltage battery to the inverter and the DC/DC converter between on and off states;
a pre-charge circuit including a pre-charge current generator that is configured to generate a pre-charge current using a current output from the high voltage battery, and a pre-charge switch that is configured to switch an input of the pre-charge current to the inverter between on and off states;
a voltage detector that is configured to detect an input voltage input from the high voltage battery to the inverter and the DC/DC converter; and
a controller that is configured to input the pre-charge current to the inverter to start pre-charge of the inverter by setting the main switch to the off state and the pre-charge switch to the on state, and that is configured to set the main switch to the on state and the pre-charge switch to the off state after the pre-charge of the inverter is completed, wherein
the inverter and the DC/DC converter are connected to the high voltage battery in parallel with each other,
the main switch and the pre-charge circuit are connected in parallel with each other on the way of a path through which the high voltage battery is connected to the inverter and the DC/DC converter,
after the pre-charge of the inverter is completed, the controller is configured to determine whether the input voltage detected by the voltage detector is lower than the input voltage input from the high voltage battery to the inverter and the DC/DC converter at a time when the pre-charge of the inverter is completed before the main switch is set to the on state and the pre-charge switch is set to the off state, and
when the input voltage detected by the voltage detector is lower than the input voltage input from the high voltage battery to the inverter and the DC/DC converter at the time when the pre-charge of the inverter is completed, the controller is configured to determine that power supplied from a power supply of the DC/DC converter to the DC/DC converter is not normally stopped.
|