KR20190041806A - Compensation system and method for position sensor of Electric Shift-By-Wire system - Google Patents

Abstract

The present invention relates to a position sensor compensation method of an electric gear-shifting lever system. According to an embodiment of the present invention, a position sensor compensation system of an electric gear-shifting lever system for compensating a position sensor value of an electric gear-shifting lever system controlling a transmission based on an electrical signal transferred from a gear-shifting lever comprises: a position sensor attached to an electric motor to sense an angle by which the electric motor is rotated; and a control unit to receive a signal generated by the gear-shifting lever in accordance with an operation of a user and a signal generated from the position sensor, compensate an output value of the position sensor based on the signals, and control the electric motor. Accordingly, the present invention can precisely identify the current position of the electric motor and clearly identify the position of the electric motor to clearly set time at which an electric signal is applied to the electric motor to precisely and sturdily control the electric gear-shifting lever system. Consequently, quality of the electric gear-shifting lever system can be improved.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a position sensor compensation system for an electric shift lever system,

The present invention relates to a method for compensating a position sensor of an electric transmission type shift lever system, and more particularly, to an electric type shift lever system for switching a position of a shift lever with an electric motor, To improve the accuracy of the position sensor.

The transmission, which is the core of the automotive driveline, transforms the driving force generated by the engine to the required torque according to the speed of the car and transmits it to the wheels. In other words, the transmission is a component that increases the rotational power of the engine according to the driving condition of the vehicle, or transmits the power generated by the engine to the wheels.

Such a transmission is divided into a manual transmission in which the clutch pedal is depressed and a vehicle driver directly shifts the gear, and an automatic transmission which is automatically shifted when the shift lever is moved to " Drive ".

In recent years, automatic transmissions have been applied to most vehicles because of the advantage of convenient and smooth oscillation because no separate clutch operation is required.

The shift mode of the automatic transmission can be determined through a shift lever system. The shift lever system includes a mechanical shift lever system that shifts to a mechanical link structure via a wire, and an electric type shift mechanism that uses an electric signal using a substrate instead of a mechanical link structure. There is a shift lever system.

Unlike the mechanical shift lever system, the electric shift lever system can transmit the information of the selected gear range by the electric signal without mechanical connection between the transmission and the shift lever, so that the shock and vibration are not generated.

Further, unlike the mechanical type shift lever system, the connecting means between the lever device and the mission can be simplified, and gear shifting can be prevented due to the unintentional movement of the lever.

Of course, the electric shift lever system is disadvantageous in that it is expensive, but since there are advantages as described above, vehicles employing the electric shift lever system are gradually increasing in number.

In the electric type shift lever system, the position of the motor is generally controlled by utilizing a Hall sensor attached to the inside of the electric motor. As described above, the method using the Hall sensor counts the moment passing through the Hall element inside the sensor, Since the rotation angle of the motor is measured, only the relative rotation amount of the motor can be measured, and the absolute rotation angle can not be measured.

Accordingly, there has been an attempt to measure the absolute rotation angle or position of the electric motor by attaching the non-contact type position sensor used in the manual type shift lever, but the PWM (Phase Width Modulation) signal output from the non-contact type position sensor has a low update speed There has been a problem that precise measurement is difficult.

Although it is necessary to grasp the current position of the motor, it is essential to control the position of the motor. However, since the position of the motor can not be grasped only by the conventional method, a new method of grasping the position of the motor is required .

JP-A-2008-215436 " Shift-by-wire system "

The present invention relates to an electric motor in which a position sensor and a hall sensor are provided and the sensor value output from the position sensor is compensated with the value measured by the hall sensor, So as to solve the problem of the conventional electric type shift lever system which is difficult to grasp accurately.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

According to an aspect of the present invention, there is provided a system for compensating a position sensor output value of an electric shift lever system that controls a transmission based on an electrical signal transmitted from a shift lever, the system comprising: A position sensor capable of sensing a rotated angle and a signal generated in the shift lever and a signal generated from the position sensor according to the operation of the user, compensates an output value of the position sensor based on the signal, The present invention provides a position sensor compensation system of an electric transmission lever system including a control unit that can be operated by a driver.

In this case, the position sensor may include a hall sensor for sensing a relative rotation angle of the electric motor, and a position sensor for sensing a current position of the electric motor.

The control unit may include a data collecting unit for receiving signals transmitted from the shift lever, the hall sensor and the position sensor, and a control unit for compensating an output value of the position sensor when grasping the current position of the electric motor based on the information received by the data collecting unit. And a controller for compensating an output value of the position sensor with an output value of the hall sensor when it is determined that the output value of the position sensor needs to be compensated, To the current position of the electric motor.

In particular, when the difference between the present output value of the position sensor and the output value before the update of the position sensor is greater than or equal to a specific value, the determination unit determines that there is a need to compensate the output value of the position sensor, It is determined that there is no need to compensate the output value of the position sensor when the difference between the output values before update of the position sensor is less than a predetermined value.

The correction unit may calculate an output value of the compensated position sensor by adding a value obtained by multiplying the output value of the position sensor by the number of holes counted by the hall sensor and a conversion coefficient, And means a rotation angle of the sensor.

The compensation unit recognizes the updated position sensor output value as the current position of the electric motor when the output value of the position sensor is newly updated after determining whether the position sensor output value is compensated in the determination unit.

According to another aspect of the present invention, there is provided a method of compensating an output value of a position sensor by utilizing a position sensor compensation system of an electric shift lever system, the method comprising the steps of: (a) (B) if it is determined that the control of the electric motor is being performed in the motor control confirmation step, the difference between the current output value of the position sensor and the output value before the update of the position sensor is determined as an absolute value (C) determining whether or not there is a need to compensate the output value of the position sensor when determining the current position of the electric motor based on the absolute value calculated in the output value variation amount calculating step; and d) If it is determined that there is a need to compensate in the compensation determination step, Based on the ryeokgap it provides a position sensor compensation method of an electric motor system including a shift lever position sensor value compensating step of compensating the output of the position sensor.

In particular, in the step (c), when the absolute value of the difference between the current output value of the position sensor converted in step (b) and the output value before update of the position sensor is greater than or equal to a predetermined value, it is necessary to compensate the output value of the position sensor And determines that there is no need to compensate the output value of the position sensor when the absolute value of the difference between the current output value of the position sensor converted in step (b) and the output value before update of the position sensor is less than a predetermined value .

In the step (d), an output value of the compensated position sensor is calculated by adding a value obtained by multiplying the output value of the position sensor by the number of holes counted by the hall sensor, Means a rotation angle of the position sensor.

If it is determined in step (c) that there is no need to compensate the output value of the position sensor, the output value of the current position sensor is recognized as the current position of the electric motor, and in step (c) And an electric motor position recognition step of recognizing the output value of the position sensor compensated in the step (d) as the current position of the electric motor if it is determined that there is a need to compensate the electric motor.

In this case, in the step (e), when the position sensor output value is updated after the step (c), the updated position sensor output value is recognized as the current position of the electric motor.

The present invention provides a method of compensating a position sensor of an electric transmission lever system by compensating an output value of a position sensor using a number of holes counted by a hall sensor and a conversion coefficient, thereby accurately grasping a current position of the electric motor.

In addition, since the position of the electric motor can be clearly grasped, it is possible to more precisely and robustly control the motor shift lever system by clearly setting the time point of applying the electric signal to the electric motor. As a result, Quality can be improved.

1 is a perspective view showing a shift lever system.
Fig. 2 is a view showing the components of the electric transmission lever system of the present invention.
3 is a flowchart of a position sensor compensation method of the electric power transmission lever system of the present invention.
4 is a flowchart of a position sensor compensation method of the electric power transmission lever system of the present invention.
5 is a flow chart of the compensation step of the present invention.
FIG. 6 is a view illustrating a compensation result according to the position sensor compensation method of the electric transmission shift lever system of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings. It is to be noted that the same elements among the drawings are denoted by the same reference numerals whenever possible. Further, the detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

It is to be understood that when an element is referred to as being connected or connected to another element, it may be directly connected or connected to the other element, but it should be understood that there may be other elements in between. Further, when a member is referred to as being " on " another member throughout the specification, this includes not only when a member is in contact with another member but also when another member exists between the two members.

In the present application, the term " comprises " or " having " or the like is intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, But do not preclude the presence or addition of other features, numbers, steps, operations, components, parts, or combinations thereof.

It should be understood that the term " system " used in the present invention means a system including a plurality of configurations.

When the driver of the automobile needs to change the running state of the vehicle, when the shift lever as shown in Fig. 1 is operated, the speed change stage changes and the running state of the vehicle changes.

[0002] In recent years, vehicles employing an electric shift lever system have been increasingly used. In the case of a conventional electric shift lever system, since the position or rotation angle of the electric motor is grasped by utilizing the hall sensor, And there was difficulty in precise control.

The present invention provides a position sensor compensation system of an electric transmission type shift lever system as shown in FIG. 2, which overcomes the difficulty of accurately locating a conventional electric motor. Fig. 2 is a view showing the components of the electric transmission lever system of the present invention.

The present invention relates to a system 10 for compensating a position sensor output value of an electric shift lever system that controls a transmission 400 based on an electric signal transmitted from a shift lever 100, A position sensor capable of detecting the angle of rotation of the electric motor 200 and a signal generated by the shift lever 100 and a signal generated from the position sensor according to the operation of the user, (ECU) 300 that can control the rotation of the electric motor 200 by compensating an output value of the position sensor on the basis of the output of the electric motor 200 and sending a signal 300a to the electric motor 200 And provides a position sensor compensation system (10).

The position sensor of the present invention includes a Hall sensor 210 for sensing a relative rotation angle of the electric motor 200 and a current position And a non-contact type position sensor (220).

The Hall sensor 210 is a sensor using a Hall element having a current magnetic effect in which the output changes when a magnetic field is applied perpendicularly to the direction of the current. The Hall sensor 210 is a sensor using a semiconductor sensor, which is mainly used for checking the rotation direction, to be.

Specifically, the hall sensor can measure the rotation angle of the shaft using a Hall element in which a voltage is not generated because the conductor does not react when it is far away, but a voltage is generated when the conductor is brought close to the conductor. The absolute angle of rotation of the electric motor 200 relative to a specific fixed position (for example, a transmission) or the position of the electric motor 200 relative to a specific fixed position (e.g., a transmission) can be measured only by measuring the rotated angle by counting the moment passing through the element, There is a limit to that.

 Also, the signal output of the Hall element is delayed to generate a slight phase difference (about 1 to 2 degrees). Such a phase difference is cumulative as the rotation is repeated, making it difficult to grasp the position of the electric motor 200 .

Accordingly, there has been proposed a method of utilizing the non-contact type position sensor 220 used in the conventional transmission gear shift (TGS) lever system to grasp the absolute rotation angle or position of the electric motor 200.

The position sensor 220 outputs the rotation angle or the position of the electric motor 200 as a PWM (Pulse Width Modulation) signal as shown in FIG. 6A, which will be described later. It is difficult to grasp the current position (rotation angle) of the electric motor 200 in real time due to a slow speed of updating the output value. In addition, due to a shock generated when the vehicle is traveling, torsion is generated between the position sensor 220 and the electric motor 200 There is a problem in that the output value of the position sensor 220 and the actual position of the electric motor 200 are largely deviated from each other and the output value of the position sensor 220 is difficult to be relied upon.

Accordingly, the present invention seeks to grasp the current position of the electric motor 200 in real time by using two sensors such as the hall sensor 210 and the position sensor 220 as described above. A specific description of the process of determining the position of the electric motor 200 will be described later.

Here, the position sensor 220 is preferably an inhibitor switch, but is not limited thereto. The position sensor 220 is not limited as long as it can measure an absolute rotation angle of the electric motor 200 such as a rotary encoder.

The control unit 300 includes a data collecting unit 310, a determining unit 320, and a compensating unit 330. Hereinafter, each of the components of the control unit 300 will be described in detail. I'll see.

The data collecting unit 310 receives the signals 100a, 210a, 220a, and 220b transmitted from the shift lever 100, the hall sensor 210, and the position sensor 220 and converts the signals into data.

The determination unit 320 determines whether there is a need to compensate the output value of the position sensor 220 when determining the current position of the electric motor 200 based on the information received by the data collection unit 310 When it is determined that there is a need to compensate the output value of the position sensor when the difference between the present output value 220a of the position sensor and the output value 220b before update of the position sensor is greater than a specific value,

It is determined that there is no need to compensate the output value of the position sensor when the difference between the present output value 220a of the position sensor and the output value 220b before update of the position sensor is less than a predetermined value.

이면 포지션 센서(220)의 출력값을 보상할 필요가 있는 것으로 판단하고,

이면 포지션 센서(220)의 출력값을 보상할 필요가 없는 것으로 판단할 수 있다. 이 때, 특정치를 0.5로 설정한 것은 일 예시에 불과한 것으로, 특정치의 값이 0.5에 한정되는 것은 아니며 특정치의 값은 변경할 수 있다.E.g,

It is determined that it is necessary to compensate the output value of the back side position sensor 220,

It can be determined that there is no need to compensate the output value of the backside position sensor 220. [ At this time, setting the specific value to 0.5 is only an example, and the value of the specified value is not limited to 0.5, and the value of the specified value can be changed.

The difference between the present output value 220a of the position sensor and the pre-update output value 220b of the position sensor is a reference value that can be determined to be a state in which the position sensor can not be moved instantaneously due to mechanical friction or the like, The present position of the electric motor can be grasped more accurately by compensating the output value of the position sensor with the output value of the hall sensor,

In contrast, when the difference between the present output value 220a of the position sensor and the output value 220b before update of the position sensor is less than a predetermined value, even if the electric motor 200 is operating, if the position sensor can not move instantaneously due to mechanical friction or the like It is judged that it is not necessary to compensate the output value of the position sensor.

Specifically, when the difference between the present output value of the position sensor and the output value before the update of the position sensor is less than a specific value, torsion occurs between the electric motor 200 and the drive shaft, Even if the output value of the position sensor is compensated by the output value of the hall sensor due to the difference between the counting value of the Hall element of the motor and the motor, the compensation value may be calculated incorrectly.

Finally, the compensation unit 330 will be described. The compensation unit 330 compensates the output value of the position sensor with the output value of the hall sensor when the determination unit 320 determines that the output value of the position sensor 220 needs to be compensated, And recognizes the position sensor output value as the current position of the electric motor.

In particular, the compensation unit 330 calculates an output value of the compensated position sensor 220 by adding a value obtained by multiplying the output value of the position sensor 220 by the number of holes counted by the hall sensor 210, . In this case, the conversion coefficient means the rotation angle of the position sensor 210 per one count of the hall sensor 220.

In summary, when the determination unit 320 determines that the output value of the position sensor 220 does not need to be compensated, the compensation unit 330 outputs the output value 220a of the current position sensor to the current position of the electric motor 200 And if the determination unit 320 determines that the output value of the position sensor 220 needs to be compensated, the compensated position sensor output value is recognized as the current position of the electric motor 200. [

However, if the output value of the position sensor 220 is updated after the period of the PWM signal is determined after the determination unit 320 determines whether the output value of the position sensor 220 is compensated, the compensation unit 330 updates The position sensor output value is recognized as the current position of the electric motor.

Next, a position sensor compensation method according to another embodiment of the present invention will be described with reference to FIGS. 3 and 4. FIG. FIG. 3 is a flowchart of a method of compensating a position sensor of an electric transmission lever system of the present invention, and FIG. 4 is a flowchart of a position sensor compensation method of the electric transmission lever system of the present invention.

According to another aspect of the present invention, there is provided a method of compensating an output value of a position sensor by utilizing a position sensor compensation system of the electric transmission shift lever system, the method comprising the steps of: (a) (B) if it is determined that the control of the electric motor is being performed in the motor control confirmation step, the difference between the current output value of the position sensor and the output value before update of the position sensor (C) determining whether there is a need to compensate the output value of the position sensor when grasping the current position of the electric motor based on the absolute value calculated in the output value variation amount calculating step (Step S230); and (d) it is determined that there is a need to compensate in the compensation determination step And a position sensor value compensating step (S240) of compensating the output value of the position sensor based on the output value of the Hall sensor.

Hereinafter, each step of the position sensor compensation method of the motor shift lever system will be described.

First, the motor control checking step S210 may determine that the position sensor has started to operate only after the electric motor is operated. Therefore, when the electric motor does not operate, it is not necessary to correct the output value of the position sensor, (S220), which is the next step in the motor control confirmation step (S210), when the driver does not operate the shift lever and thus requires no control of the electric motor The position sensor compensation process is terminated.

수치를 데이터화하여 제어부에 저장하는 단계이다.2, the output value change amount calculation step S220 is a step of calculating the output value change amount S220 of the output value 220a of the position sensor, which is attached to the electric motor and detects the rotation position of the electric motor, Lt; / RTI >

And storing the numerical value in the control unit.

Next, the compensation determination step S230 compares the absolute value of the difference between the current output value of the position sensor and the output value of the position sensor before the update in the output value variation calculation step S220, It is determined that there is a need to compensate the output value of the position sensor when the absolute value of the difference between the current output value of the position sensor and the output value before update of the position sensor is greater than or equal to a certain value, and the current output value of the position sensor and the output value It is determined that there is no need to compensate the output value of the position sensor when the absolute value of the difference is less than the predetermined value.

The reason for determining whether or not to compensate the output value of the position sensor based on the specific value is the same as that described above, so a detailed description will be omitted.

Next, referring to FIG. 5 and FIG. 6, a position sensor value compensation step (S240), which is the most important among the position sensor compensation methods of the present invention, will be described. FIG. 5 is a flow chart of the compensation step of the present invention, and FIG. 6 is a diagram illustrating compensation results according to a position sensor compensation method of the electric transmission shift lever system of the present invention.

The compensation determination step S230 receives the current position sensor output value data, data on the number of counted holes, and data on the transform coefficient from the position sensor and the hall sensor. At this time, the conversion coefficient means the rotation angle of the position sensor per one count of the hall sensor as mentioned above.

 If the absolute value of the difference between the present output value of the position sensor and the output value before update of the position sensor is greater than a predetermined value in the compensation determination step S230 and it is necessary to compensate the output value of the position sensor, The output value is obtained by multiplying the number of holes counted by the hall sensor by a conversion coefficient to calculate an output value of the compensated position sensor as shown in FIG.

6C, the present invention can grasp the current position of the electric motor in real time in comparison with the case where only the position sensor is used, and even if a disturbance such as a torsion occurs, the position of the electric motor Can be grasped more precisely.

Finally, the present invention may further include an electric motor position recognition step S250. The electric motor position recognizing step S250 recognizes the current position of the electric motor on the basis of the output value of the current position sensor when it is determined that the output value of the position sensor need not be compensated in the compensation determination step S230,

On the contrary, if it is determined that the output value of the position sensor needs to be compensated in the compensation determination step S230, the current position of the electric motor is recognized based on the output value of the compensated position sensor in the compensating step S240.

However, if the position sensor output value is newly updated after the PWM signal period has elapsed since the determination of the compensation state (S230), the electric motor position recognition step (S250) does not compensate the position sensor output value, Real time information on the current position of the electric motor is reflected, and therefore, it is recognized as the current position of the electric motor based on the updated position sensor output value.

In summary, the present invention provides a position sensor compensation system and method for an electric shift lever system as described above, so that the current rotation angle or position of the electric motor can be recognized in real time. As a result, it is possible to clearly set the point at which the electric current is to be applied to the electric motor, thereby improving the control performance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

Furthermore, the terms used in the present invention are used only to describe specific embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Position sensor compensation system
100: Shift lever
200: Electric motor
210: hall sensor
220: Position sensor
300:
310: Data collecting unit
320:
330:
400: Transmission

Claims (11)

A system for compensating a position sensor output value of an electric shift lever system for controlling a transmission based on an electrical signal transmitted from a shift lever,
A position sensor attached to the electric motor, the position sensor capable of detecting the angle at which the electric motor is rotated; And
And a control unit for receiving a signal generated by the shift lever and a signal generated from the position sensor according to an operation of the user and compensating an output value of the position sensor based on the signal and controlling the electric motor, Position sensor compensation system.
The method according to claim 1,
Wherein the position sensor comprises a Hall sensor for sensing a relative rotation angle of the electric motor and a position sensor for sensing a current position of the electric motor.
3. The method of claim 2,
Wherein the control unit comprises: a data collecting unit for receiving signals transmitted from the shift lever, the hall sensor, and the position sensor;
A determination unit for determining whether it is necessary to compensate the output value of the position sensor when the current position of the electric motor is recognized based on the information received by the data collecting unit; And
A compensation unit that compensates the output value of the position sensor with the output value of the hall sensor and recognizes the compensated position sensor output value as the current position of the electric motor when it is determined that the output value of the position sensor needs to be compensated, Wherein the position sensor compensation system of the electric shift lever system comprises:
The method of claim 3,
Wherein the determination unit determines that there is a need to compensate the output value of the position sensor when the difference between the current output value of the position sensor and the output value before update of the position sensor is greater than a specific value,
And determines that there is no need to compensate the output value of the position sensor when the difference between the present output value of the position sensor and the output value before update of the position sensor is less than a predetermined value.
The method of claim 3,
Wherein the correction unit calculates an output value of the compensated position sensor by adding a value obtained by multiplying the output value of the position sensor by the number of holes counted by the hall sensor,
Wherein the conversion coefficient means a rotation angle of the position sensor per one count of the hall sensor.
6. The method of claim 5,
Wherein the compensation unit recognizes the updated position sensor output value as the current position of the electric motor when the output value of the position sensor is newly updated after determining whether the position sensor output value is compensated in the determination unit Position sensor compensation system.
A method of compensating an output value of a position sensor by utilizing a position sensor compensation system of an electric transmission lever system according to any one of claims 1 to 6,
(a) a motor control confirmation step of confirming whether or not control of an electric motor is being performed by a signal transmitted by an operation of a shift lever of a driver;
(b) an output value change amount calculation step of converting the difference between the present output value of the position sensor and the output value before update of the position sensor into an absolute value, when it is determined that the control of the electric motor is performed in the motor control confirmation step;
(c) determining whether or not there is a need to compensate the output value of the position sensor when determining the current position of the electric motor based on the absolute value calculated in the output value variation amount calculating step; And
(d) a position sensor value compensating step of compensating an output value of the position sensor based on the output value of the hall sensor when it is determined that compensation is necessary in the compensation compensation step.
8. The method of claim 7,
In the step (c), when the absolute value of the difference between the current output value of the position sensor converted in step (b) and the output value of the position sensor before update is greater than a predetermined value, it is determined that there is a need to compensate the output value of the position sensor ,
And determines that there is no need to compensate the output value of the position sensor when the absolute value of the difference between the present output value of the position sensor converted in step (b) and the output value before update of the position sensor is less than a predetermined value, A method of compensating a position sensor of a system.
8. The method of claim 7,
In the step (d), the output value of the compensated position sensor is calculated by adding the value obtained by multiplying the output value of the position sensor by the number of holes counted by the hall sensor,
Wherein the conversion coefficient means a rotation angle of the position sensor per one count of the hall sensor.
8. The method of claim 7,
(e) if it is determined in step (c) that there is no need to compensate the output value of the position sensor, the output value of the current position sensor is recognized as the current position of the electric motor,
And an electric motor position recognition step of recognizing the output value of the position sensor compensated in step (d) as the current position of the electric motor if it is determined in step (c) that it is necessary to compensate the output value of the position sensor Position sensor compensation method of shift lever system.
11. The method of claim 10,
Wherein the step (e) comprises: recognizing the updated position sensor output value as the current position of the electric motor when the position sensor output value is newly updated after the step (c). .

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