KR101171914B1 - Motor temperature estimation method for green car and apparatus thereof - Google Patents

Abstract

The present invention estimates the permanent magnet temperature in the motor rotor by using the output current of the DC stage, and the motor temperature estimation method of the eco-friendly vehicle to provide the current control of the motor based on the estimated permanent magnet temperature in the motor rotor and An apparatus is disclosed.
The present invention is a process for detecting the output current of the DC stage, the process of estimating the permanent magnet temperature in the motor rotor by applying the torque command and the output current of the DC stage to the response surface model, torque command and the motor angular velocity to the current map And generating a current command for driving the motor, and correcting the current command by reflecting the estimated permanent magnet temperature in the motor rotor.

Description

Motor temperature estimation method and device for eco-friendly cars {MOTOR TEMPERATURE ESTIMATION METHOD FOR GREEN CAR AND APPARATUS THEREOF}

The present invention relates to an environmentally friendly vehicle, and more particularly, an environmentally friendly vehicle that estimates the permanent magnet temperature in the motor rotor using the output current of the DC stage and provides current control of the motor based on the estimated permanent magnet temperature. The present invention relates to a method and apparatus for estimating motor temperature.

Eco-friendly cars are being provided due to the continuous demand for fuel efficiency and the tightening of emission regulations in each country.

The eco-friendly vehicle is a generic term for a fuel cell vehicle, an electric vehicle, and a hybrid vehicle, and refers to a vehicle in which one or more batteries are provided and energy stored in the battery is used as a driving force of the vehicle.

Since a motor applied as a driving source in an eco-friendly vehicle is driven by a high voltage battery power source, an embedded permanent magnet motor having a wide speed control region and a torque control region is used to obtain high efficiency characteristics.

In an eco-friendly car, the magnetic flux of a permanent magnet composed of a rotor of a motor is changed due to heat generated according to the ambient temperature and operating conditions including the engine room.

Since the change of the magnetic flux characteristics affects the control characteristics and eventually results in a deterioration of the torque control performance, control of accurate temperature estimation and compensation of the permanent magnets is required to prevent the deterioration of the control characteristics.

In the conventional eco-friendly vehicle, a temperature sensor is installed on the stator of the motor to measure the temperature of the motor generated in the driving control process of the motor and use the reference temperature.

However, the method of measuring the temperature by installing a temperature sensor on the stator of the motor has a problem that it is impossible to measure the temperature of the permanent magnet physically separated from the stator.

Therefore, there is a problem in that compensation control for the permanent magnet temperature change in the motor rotor is not executed in the drive control of the motor.

The present invention has been proposed to solve the above problems, and an object of the present invention is to estimate the permanent magnet temperature in the motor rotor from the output current of the DC stage to estimate the reference temperature used for the current control of the motor. It is to apply the temperature.

According to a feature of the invention to achieve the above object, the process of detecting the output current of the DC terminal; Estimating the permanent magnet temperature in the motor rotor by applying the torque command and the output current of the DC stage to the response surface model; Generating a current command for driving the motor by applying the torque command and the motor rotational angular velocity to the current map; There is provided a motor temperature estimation method of an environmentally friendly vehicle including a process of correcting a current command for driving a motor by reflecting the estimated permanent magnet temperature.

In addition, according to another feature of the invention, the current detection unit for detecting the output current of the battery supplied to the motor; A temperature estimate for estimating the temperature of the permanent magnet in the motor rotor by applying the torque command and the output current of the battery to the response surface model; Provided is a motor temperature estimation apparatus for an environmentally friendly vehicle including an interpolator for applying a permanent magnet temperature in the estimated motor rotor to correct a current command for driving a motor extracted with a torque command and a motor rotational angular velocity.

As described above, according to the exemplary embodiment of the present invention, the driving of the motor is performed at a current control value to which the actual temperature of the permanent magnet is applied, thereby increasing stability and efficiency in controlling the motor, and optimally exerting the efficiency of the motor to improve fuel efficiency. Can provide.

1 is a view schematically showing an apparatus for estimating motor temperature of an eco-friendly vehicle according to an exemplary embodiment of the present invention.
2 is a diagram illustrating a motor temperature estimation procedure of an eco-friendly vehicle according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily carry out the embodiments.

The present invention can be embodied in various different forms, and thus the present invention is not limited to the embodiments described herein.

1 is a view schematically showing an apparatus for estimating motor temperature of an eco-friendly vehicle according to an exemplary embodiment of the present invention.

As can be seen in Figure 1, the motor temperature estimation apparatus of the eco-friendly vehicle according to an embodiment of the present invention, the current command generator 11, the interpolator 12, the current controller 13, the PWM generator 14, The driver 15, the inverter 16, the motor 17, the resolver 18, the battery 19, the current detector 20, and the temperature estimate 21 are included.

The current command generator 11 sets a plurality of current maps learned according to the temperature of the motor 17. When the torque command T ^* for requesting the drive of the motor 17 is input, the angular velocity of the motor 17 is input. After detecting ω), the torque command (T ^* ) and the angular velocity (ω) of the motor 17 inputted are applied to the set current map to generate current commands for the stator d-axis and q-axis to the interpolator 12. Is authorized.

The interpolator 12 generates a current command for the stator d-axis and q-axis generated and applied according to the torque command T ^* input from the current command generator 11 and the angular speed ω of the motor 17. By applying the permanent magnet temperature in the motor rotor, which is estimated to be the output current of the battery 19 provided by the temperature estimating 21, the current command is interpolated and the actual current command on the stator d-axis and q-axis is applied to the current controller 13. ) Is applied.

The current controller 13 determines and outputs current commands for the stator q-axis and q-axis applied by the interpolator 12 as voltage commands for the stator d-axis and q-axis.

The PWM generator 14 generates and applies a PWM signal for phase-converting the DC voltage of the battery 19 to the three-phase AC voltage according to the voltage command determined and applied by the current controller 13 to the driver 15.

The driving unit 15 applies a PWM signal applied from the PWM generator 14 to the gate terminal of the power switch element constituting a plurality of inverters as a drive signal.

The inverter 16 includes a plurality of power switch elements, and is switched by a PWM signal applied to a gate terminal by the driver 15 to convert a DC voltage supplied from the battery 19 into a three-phase AC voltage to convert the motor 17 into a three-phase AC voltage. To each phase.

The motor 17 is a power source configured in an eco-friendly vehicle and is driven by voltage and current applied from the inverter 16.

The resolver 18 detects the position angle θ of the rotor according to the driving of the motor 17 and provides the PWM generator 14 with information of the motor speed and angular velocity ω to drive the motor 17. Allows feedback control of speed and torque to be provided.

The battery 19 is a DC power supply, and stores high voltage energy.

The current detector 20 detects an output of the battery 19 according to the driving of the motor 17 and provides information about the temperature to the temperature estimation 21.

The temperature estimator 21 detects the permanent magnet temperature in the rotor of the motor 17 by applying the output current and torque command of the battery 19 provided from the current detector 20 and interpolates the information about the permanent magnet temperature. To provide.

The operation of the present invention including the function as described above is executed as follows.

In the state where the eco-friendly vehicle to which the present invention is applied (S101), the current detector 20 detects the output current of the battery 19 consumed according to the driving of the motor 17 and provides it to the temperature estimating 21. (S102).

The temperature estimator 21 estimates the permanent magnet temperature in the rotor of the motor 17 using the torque command of the driver and the output current of the battery 19 provided from the current detector 20 (S103).

The permanent magnet temperature estimation in the rotor of the motor 17 uses the following principle.

When the permanent magnet temperature in the rotor of the motor 17 rises at a specific operating point according to the driver's torque command, the output of the inverter 16 decreases. When the output of the inverter 16 decreases, the output current of the battery 19 decreases. As a result, the output of the motor 17 is reduced and consequently the output of the battery 19 is reduced.

Accordingly, by applying the response surface modeling technique, it is possible to estimate the temperature of the permanent magnet from the torque command and the output current of the battery, which are independent variables affecting the permanent magnet temperature in the rotor of the motor 17 as the dependent variable.

In step S104, the torque command input required by the driver to the current command generator 11 is detected in the state in which the permanent magnet temperature in the rotor of the motor 17 is estimated (S104), and the rotation of the motor 17 from the resolver 18 is detected. When the angular velocity is input (S105), the current command generator 11 generates a current command for the stator d-axis and q-axis by applying the torque command and the rotational angular velocity of the motor 17 to the set current map to the interpolator 12. It is applied (S106).

Therefore, the interpolator 12 estimates from the output current of the battery 19 provided by the temperature estimator 21 with respect to the current commands for the stator d-axis and q-axis generated and applied in the current command generator 11. The current command is interpolated by applying the temperature in the rotor of the motor 17 to be applied to the current controller 13 (S107).

The current controller 13 determines a current command for the stator q-axis and q-axis applied by the interpolator 12 as a substantial voltage command for the stator d-axis and the q-axis and applies it to the PWM generator 14 (S108). .

Accordingly, the PWM generator 14 generates and applies a PWM signal for phase-converting the DC voltage of the battery 19 to the three-phase AC voltage according to the voltage command determined and applied by the current controller 13 to the driver 15. do.

The driving unit 15 applies a PWM signal applied from the PWM generator 14 to the gate terminal of the power switch element constituting a plurality of inverters as a drive signal.

The inverter 16 includes a plurality of power switch elements, and is switched by a PWM signal applied to a gate terminal by the driver 15 to convert a DC voltage supplied from the battery 19 into a three-phase AC voltage to convert the motor 17 into a three-phase AC voltage. By supplying to each of the phases), driving of the motor 17 that follows the driver's torque command is provided (S109).

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, , Additions, deletions, and so on, other embodiments may be easily suggested, but this is also included in the spirit of the present invention.

11: current command generator 12: interpolator
20: current detector 21: temperature estimation

Claims (2)

Detecting an output current of the DC terminal;
Estimating the permanent magnet temperature in the motor rotor by applying the torque command and the output current of the DC stage to the response surface model;
Generating a current command for driving the motor by applying the torque command and the motor rotational angular velocity to the current map;
Correcting the current command by reflecting the estimated permanent magnet temperature in the motor rotor;
Motor temperature estimation method of an environmentally friendly vehicle comprising a. A current detector detecting an output current of the battery supplied to the motor;
A temperature estimator for estimating the permanent magnet temperature in the motor rotor by applying the torque command and the output current of the battery to the response surface model;
An interpolator for correcting a current command for driving the motor extracted by the torque command and the motor rotational angular velocity by applying the estimated permanent magnet temperature in the motor rotor;
Motor temperature estimation device of an environmentally friendly vehicle comprising a.

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