A motor control system includes a drive motor and a deck motor that are connected to a battery, an ECU, and a key switch. The key switch acquires that an operation unit has been turned on, and transmits a restart permission signal to the ECU. When SOC of the battery reaches or falls below a first th
A motor control system includes a drive motor and a deck motor that are connected to a battery, an ECU, and a key switch. The key switch acquires that an operation unit has been turned on, and transmits a restart permission signal to the ECU. When SOC of the battery reaches or falls below a first threshold set in advance, the ECU performs a step of disabling all the motors, and when the restart permission signal is received, the ECU performs a step of executing a decelerated travelling mode where the disabled state of the drive motor is released and an allowed speed of the drive motor is reduced.
대표청구항▼
1. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda mai
1. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the main controller performs an overload handling process set in advance in a case where the overload determination signal is input from at least one of the motor controllers, andwherein the driving state of a corresponding one of the motors or the operation state of a corresponding one of the motor controllers itself is at least one of the following:(1) a difference between a target number of revolutions and an actual number of revolutions of the corresponding motor,(2) an integrated value of motor current input to the corresponding motor, and(3) target torque or actual torque of the corresponding motor. 2. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the main controller performs an overload handling process set in advance in a case where the overload determination signal is input from at least one of the motor controllers,wherein the main controller calculates or sets a target number of revolutions or target torque of at least one of the drive motor and the auxiliary motor according to a signal input from at least one operator sensor or an activation switch, and outputs a target signal that is a control signal indicating the target number of revolutions or the target torque which has been calculated or set to at least one of the drive motor controller and the auxiliary motor controller,wherein the motor controller to which the target signal has been input controls the drive motor or the auxiliary motor according to the target number of revolutions or the target torque, andwherein, as the overload handling process, the main controller selects the motor controller that is a processing target, and changes the target number of revolutions or the target torque which has been calculated or set, with respect to the motor controller which has been selected. 3. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller, andwherein in a case where the overload determination signal is input into the main controller from at least one of the motor controllers and the auxiliary motor is overloaded, the main controller decelerates, as an overload handling process set in advance, the drive motor compared with a case of normal control. 4. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller, andwherein in a case where the overload determination signal is input into the main controller from at least one of the motor controllers and the drive motor is overloaded, the main controller stops the auxiliary motor, as an overload handling process set in advance. 5. The control system for an electric motor-driven vehicle according to claim 4, wherein the main controller performs a step of decelerating the drive motor as compared with a case of normal control in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the auxiliary motor has been stopped, anda step of stopping the drive motor in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the drive motor has been decelerated. 6. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller, andwherein in a case where the overload determination signals are input into the main controller from at least one of the motor controllers and both the auxiliary motor and the drive motor are overloaded, the main controller performs, as an overload handling process set in advance, a step of stopping the auxiliary motor,a step of decelerating the drive motor as compared with a case of normal control in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the auxiliary motor has been stopped, anda step of stopping the drive motor in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the drive motor has been decelerated. 7. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein in a case where the overload determination signal is input into the main controller from at least one of the motor controllers and the auxiliary motor is overloaded, the main controller stops the auxiliary motor, as an overload handling process set in advance, andwherein the main controller performs a step of decelerating the drive motor as compared with a case of normal control in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the auxiliary motor has been stopped, anda step of stopping the drive motor in a case where overloading of the drive motor continues for a predetermined period of time set in advance or longer after the drive motor has been decelerated. 8. A control system for an electric motor-driven vehicle, the control system comprising: a drive motor and an auxiliary motor that are connected to a power source unit;a drive motor controller for controlling the drive motor;an auxiliary motor controller for controlling the auxiliary motor; anda main controller for outputting a control signal to each of the motor controllers,wherein the drive motor controller determines, based on a driving state of the drive motor or an operation state of the drive motor controller itself, whether or not the drive motor is overloaded, and in a case where the drive motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller,wherein the auxiliary motor controller determines, based on a driving state of the auxiliary motor or an operation state of the auxiliary motor controller itself, whether or not the auxiliary motor is overloaded, and in a case where the auxiliary motor is overloaded for a predetermined period of time set in advance or longer, outputs an overload determination signal to the main controller, andwherein the main controller performs a step of decelerating the drive motor as compared with a case of normal control, as an overload handling process set in advance, in a case where the overload determination signal is input from at least one of the motor controllers and the auxiliary motor is overloaded, anda step of stopping the auxiliary motor in a case where overloading of the auxiliary motor or the drive motor continues for a predetermined period of time set in advance or longer after the drive motor has been decelerated.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (13)
Dettmann, Benjamin D., Battery-powered walk-behind greensmower.
Matsubara, Tooru; Kumazaki, Kenta; Tabata, Atsushi; Kaifuku, Masakazu, Control apparatus and control method for power transmission apparatus for vehicle.
Carrier David A. ; Woods Samuel G. ; Strong David S.,CAX ; Gifford Carl W.,CAX ; Dyke Colin M.,CAX, Cordless electric lawn mower having energy management control system.
Wang, Hongkun; Koga, Kazunari; Nakagawa, Shigeaki; Ishino, Fumitoshi; Cass, William J., Motor control system and control system for electric motor-driven vehicle.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.