DAMPING OF AN OSCILLATION OF A SUPERIMPOSED STEERING SYSTEM

Abstract

A method for damping an oscillation of a superimposed steering system of a motor vehicle in which a sensor of the superimposed steering system detects an actual steering angle of a motor of the superimposed steering system and a control device of the superimposed steering system determines an oscillation of the superimposed steering system as a periodic change of the detected actual steering angle and, in the case of a determined oscillation, carries out a measure for damping the oscillation.

Claims

1. A method for damping an oscillation of a superimposed steering system of a vehicle, comprising: a sensor of the superimposed steering system detects an actual steering angle of a motor of the superimposed steering system, a control device determines an oscillation of the superimposed steering system as a periodic change of the detected actual steering angle and upon a determined oscillation it carries out a measure for reducing the oscillation, and wherein the control device carries out the measure as a function of a period number or semi-period number of the periodic change.

2. The method according to claim 1, wherein the control device counts periods or semi-periods of the periodic change and/or the control device starts the measure when the number of periods or the number of semi-periods reaches or exceeds a predetermined actuation value, and/or the control device varies the measure as a function of the counted periods or semi-periods, and/or the control device terminates the measure if it no longer determines any oscillation of the superimposed steering system and/or if at least one other exit condition has been met, and/or the control device sets a counter for counting the periods or semi-periods to zero with or after the end of the measure.

3. The method according to claim 1, in which the control device determines an oscillation if the frequency of the periodic change is in a predetermined frequency range and/or if the amplitude of the periodic change is in a predetermined amplitude range.

4. The method according to claim 1, in which the control device carries out the measure as a function of at least one other criterion met in particular for a given minimum time, in particular as a function of a traveling speed of the vehicle, of a steering wheel angle, of a steering wheel angle speed, of a control deviation of an actual steering angle from a theoretical steering angle and/or of a steering moment.

5. The method according to claim 1, wherein the control device creates a continuous transition between a phase without a measure and a phase with a measure, in particular by a filtering or a limiting of a gradient at the beginning and/or at the end of the measure.

6. The method according to claim 1, wherein the control device supplies the motor with a control current which is reduced in comparison to the normal operation of the superimposed steering system as a measure against the oscillation.

7. The method according to claim 1, wherein the control device supplies the motor with a control current opposed to the oscillation as a measure against the oscillation.

8. A control device for a superimposed steering system of a vehicle, comprising: a sensor of the superimposed steering system detects an actual steering angle of a motor of the superimposed steering system, a control device determines an oscillation of the superimposed steering system as a periodic change of the detected actual steering angle and upon a determined oscillation it carries out a measure for reducing the oscillation, and wherein the control device carries out the measure as a function of a period number or semi-period number of the periodic change, which is configured to determine an oscillation of the superimposed steering system as a periodic change of an actual steering angle of a motor of the superimposed steering system which motor is connected to the control device, and which is configured to carry out, upon a determined oscillation as a function of a period number or semi-period number of the periodic change, a measure against the oscillation.

9. The control device according to claim 8, further comprising: a meter for counting the periods and/or semi-periods and a predetermined actuation value and is configured to start the measure when the period number or semi-period number has reached or exceeded the predetermined actuation value, and/or to vary the measure as a function of the counted periods or semi-periods, to terminate the measure when it no longer determines an oscillation and/or when at least one other exit condition has been met, and to set the meter to zero with or after the end of the measure.

10. A superimposed steering system, comprising: a sensor of the superimposed steering system detects an actual steering angle of a motor of the superimposed steering system, a control device determines an oscillation of the superimposed steering system as a periodic change of the detected actual steering angle and upon a determined oscillation it carries out a measure for reducing the oscillation, and wherein the control device carries out the measure as a function of a period number or semi-period number of the periodic change a control device, a motor connected to the control device and comprises a sensor connected to the control device for detecting an actual steering angle of the motor, in which the control device is configured to determine an oscillation of the superimposed steering system as a periodic change of the actual steering angle detected by the sensor and, if an oscillation is determined as a function of a period number or of a semi-period number of the periodic change, to carry out a measure against the oscillation.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0028] The disclosure is schematically shown using embodiments in the drawings and is described further with reference made to the drawings. In the drawings:

[0029] FIG. 1 shows a schematic view of a block diagram of a module of an embodiment of a control device according to the invention for an embodiment of a superimposed steering system according to the invention,

[0030] FIG. 2 shows a diagram of a course in time of a theoretical steering angle and of an actual steering angle comprising an oscillation in sections,

[0031] FIG. 3 shows a diagram of the course in time corresponding to FIG. 2 of a measure corresponding to an embodiment of the method according to the invention, and

[0032] FIG. 4 shows a diagram of the course in time corresponding to FIG. 2 of the reduced control current counter to the oscillation corresponding to an embodiment of the method of the invention.

DETAILED DESCRIPTION

[0033] FIG. 1 shows a schematic view of a block diagram of a module 10 of an embodiment of a control device according to the invention for an embodiment of a superimposed steering system of a vehicle and according to the invention.

[0034] The module 10 is designed as an integrated switching circuit and comprises an actual steering angle input 11, a theoretical steering angle input 12, a measure actuation output 13, a steering wheel steering angle input 14, a steering wheel angle speed input 15, a steering wheel torque input 16, a driving speed input 17 and a gradient input 18.

[0035] The superimposed steering system comprises the control device with the module 10, a motor connected to the control device and comprises a sensor connected to the control device for detecting an actual steering angle 100 of the motor shown in FIG. 2.

[0036] The control device is configured to determine an oscillation 101, 102 of the superimposed steering system as a periodic change of the actual steering angle 100 detected by the sensor and when an oscillation 101, 102 is determined as a function of a period number or of a semi-period number of the periodic change, a measure 120 against the oscillation 101, 102 shown in

[0037] FIG. 3 is engaged. To this end, the control device comprises a meter for counting the periods and/or semi-periods and a predetermined actuation value and is configured to start the measure 120 when the period number or semi-period number has reached or exceeded the predetermined actuation value and to terminate the measure 120 when it no longer determines an oscillation and/or when at least one other exit condition has been met, and to set the meter to zero with or after the end 122 of the measure 120.

[0038] During the operation of the superimposed steering system the sensor continuously detects the actual steering angle 100 of the motor. The control device determines an oscillation 101, 102 of the superimposed steering system as a periodic change of the detected actual steering angle 100 when the frequency of the periodic change is in a predetermined frequency range and the amplitude of the periodic change is in a predetermined amplitude range.

[0039] When an oscillation 101, 102 has been determined, the control device carries out a measure 120 for damping the oscillation 101, 102 as a function of a period number or of a semi-period number of the periodic change.

[0040] To this end, the control device counts periods or semi-periods of the periodic change and starts the measure 120 when the period number or semi-period number exceeds the predetermined actuation value. The control device terminates the measure 120 when it no longer determines an oscillation 101, 102 of the superimposed steering system and/or if another exit condition has been met and sets the meter for counting the periods or semi-periods to zero after the end 122 of the measure 120.

[0041] In addition, the control device can make the carrying out of a measure 120 dependent on other criteria such as, for example, a travel speed of the vehicle, a steering wheel angle, a steering wheel angular speed, a deviation from a control of an actual steering angle from a theoretical steering angle, and/or a steering moment. Furthermore, the carrying out of the measure 120 can be linked to the fact that the other criteria for a given minimum duration have been met and/or that certain boundary limits have been dropped below or exceeded.

[0042] The control device supplies the motor with a reduced control current as measure 120 against the oscillation 101, 102. Alternatively or additionally, the control device can supply the motor with a control current which counteracts the oscillation 101, 102 in comparison to the normal operation of the superimposed steering system. In doing so, the control device creates continuous transitions between phases without measure 120 and phases of a measure 120 by a filtering or by a limiting of a gradient at the beginning 121 and the end 122 of a measure 120.

[0043] For a better view, the operation of the method is shown in detail in the FIGS. 2 to 4.

[0044] FIG. 2 shows a diagram 20 of a course in time of a theoretical steering angle 110 and of an actual steering angle 100. An angle measure is entered on the ordinate 21 and a time measure on the abscissa 22. The actual steering angle 100 has periodic changes in sections determined by the control device as oscillations 101, 102.

[0045] FIG. 3 shows a diagram 30 of the course in time of a measure 120 corresponding to FIG. 2 and to an embodiment of the method of the invention. An activity of the measure is recorded on the ordinate 31 and the measure of time shown in FIG. 2 is recorded on the abscissa 32.

[0046] The activity value 0 means here that no measure is activated against an oscillation, and the value 1 means that the measure is activated against an oscillation. It is apparent from the course in time of the measure 120 that the measure 120 is carried out and ended several times in the time section considered, i.e., the time course has an alternating sequence of a beginning 121 of the measure 120 and an end 122 of the measure 120. It is clear from a comparison with FIG. 2 that not every periodic change of the actual steering angle 100 initiates the beginning 121 of a measure 120 but rather a measure 120 is not carried out until the number of periods or of semi-periods is greater than the actuation value. Therefore, a very short oscillation 101 shown in FIG. 2 does not initiate a measure 120 whereas a longer oscillation 102 shown in FIG. 2 initiates a measure 120 which, however, is initiated only by the second period or the third semi-period of the particular oscillation 102.

[0047] FIG. 4 shows a diagram 40 of the course in time of a reduced control current 130 and corresponding to FIG. 2, as a measure against the oscillation according to an embodiment of the method of the invention. A current strength of the reduced control current 130 is entered on the ordinate 41 and the time measurement shown in the FIGS. 2 and 3 is entered on the abscissa 42. It becomes clear from a comparison with FIG. 3 that the motor of the superimposed steering system receives current exactly in the phases with a reduced control current 130 in which a measure 120 is active, that is, between a beginning 121 and an end 122 of a measure 120 in each case.

[0048] The method according to the invention has the advantage that it avoids unnecessary measures 120 against an oscillation of the superimposed steering system and in this manner ensures a pleasant steering feel for a driver of the vehicle.