WO2011039028A1

WO2011039028A1 - Method for calibrating a tilt sensor

Info

Publication number: WO2011039028A1
Application number: PCT/EP2010/062852
Authority: WO
Inventors: Maik WÜRTHNER; Ingo Sauter; Joachim Staudinger; Johannes Kemler
Original assignee: Zf Friedrichshafen Ag
Priority date: 2009-10-01
Filing date: 2010-09-02
Publication date: 2011-04-07
Also published as: DE102009045255A1

Abstract

The invention discloses a method for calibrating a vehicle tilt sensor, in which the tilt of the vehicle, while said vehicle is in motion, is continuously determined as an output value and in the direction of travel. According to the invention, a mean value is calculated from a predetermined number of determined output values and used to zero-adjust the tilt sensor, in order to compensate between the actual tilt and the tilt that has been determined.

Description

Method for Calibrating a Neiqunqssensors

The present invention relates to a method for calibrating a tilt sensor of a vehicle according to the closer defined in the preamble of claim 1. Art.

For example, from the document DE 197 52 439 C2, a micromechanical tilt sensor for a motor vehicle is known. The inclination sensor comprises a carrier plate with a plurality of pressure sensor units for determining pressure forces applied to the carrier plate. Furthermore, an evaluation unit for determining the inclination of the carrier plate from the output data of the pressure sensor units is used. A calibration for correcting manufacturing or evaluation tolerances is not provided. Only the minimization of aging effects of the inclination sensor are partially taken into account in the known sensor in that the pressure sensors used on the carrier plate have a nearly identical aging behavior, which is canceled between the different pressure sensors. Deviations due to manufacturing or other effects can not be corrected.

In addition, a method for calibrating a tilt sensor is known from the document DE 102 00 693 A1. In the known method, the inclination sensor is arranged in a predetermined initial orientation and a first sensor signal detected in a first detection step. In at least three further detection steps of the inclination sensor is in each case brought by turning in different, predetermined further orientations in space and it is detected in each case corresponding sensor signals. Thus, in the known method, several test measurements with the tilt sensor are required to make a corresponding calibration. Moreover, it is necessary to bring the sensor into different orientations in space, which is not readily possible with a sensor used in the vehicle. The present invention is based on the object to propose a method of the type described above, in which as simple as possible during normal operation, a calibration is continuously possible.

This object is achieved by the features of claim 1. Further advantageous embodiments will be apparent from the dependent claims.

Accordingly, a method for calibrating a tilt sensor of a vehicle is proposed, in which during driving the inclination of the vehicle as the output value is determined continuously at least in the direction of travel, wherein the correction between the actual inclination and the determined inclination from a predetermined number of determined output values, an average value is determined and used for zero adjustment in the tilt sensor.

In this way, in driving operation, for example, each output value of the inclination sensor can be used continuously for averaging, thus realizing a continuous calibration of the sensor. Usually, a vehicle overcomes its distance in relation to the distance only small height differences and also the height differences are always overcome in both directions. For this reason it follows that the average determined slope value always gives the value zero. As a result, with the method according to the invention, the mean value determined can be used as zero deviation in the inclination sensor for calibration. The proposed method can advantageously be applied continuously during driving, so that then changes over the life can be corrected immediately.

As part of a possible embodiment of the invention can be provided that the average is determined, for example, over a predetermined distance interval of the vehicle. This has the advantage that the average is formed over the distance traveled and not over time. On In this way, so-called running away of the mean value can be avoided, for example during a vehicle standstill or in the event of influences due to changing vehicle speeds.

Preferably, at least one measured value or output value of the inclination sensor can be used for each defined distance interval. It is particularly advantageous if the averaging is carried out as a function of the vehicle speed, for example. The vehicle speed and therefore also the distance traveled can be made available, for example, from external sources, for example by a control unit which is connected via a vehicle network in order to make the data available to the method according to the invention. It is also possible for these data to be calculated from internal transmission measured variables, for example an output sensor or the like.

The defined in the context of averaging length of the distance over which the average is formed, can be selected according to an embodiment of the invention as a function of the required accuracy in the process. If, for example, an accuracy of, for example, one percent is required, the distance should be about a hundred times greater than the maximum height difference that can be overcome along the distance traveled by the vehicle. The height difference can be determined, for example, from the geographical conditions of the route of the vehicle, the data being e.g. be provided via a navigation device of the vehicle the proposed method available.

In the method, a fixed number of output values or measured variables can preferably be determined over the selected distance interval. The output data is then used to form a moving average. The number of measurements that are taken into account in the moving averaging depends on the length of the route interval and on the set number of output values per distance interval. The new measured value always replaces the oldest measured value in averaging, whereby the required values for averaging can be temporarily stored. A further possible embodiment variant of the method according to the invention may provide that to calculate an average value for reducing the required memory space, each new output value is added to a sum and then divided by the number of recorded output data to form a current mean value, for example next mean value is obtained. If a maximum number of slope values or inclination values has been obtained, a current average value is thus stored in each case. The number of output values used is variable depending on the available memory space.

Preferably, after the storage of a current mean value, the averaging can start anew. The stored average value can be used until a new one has been determined. It is also possible that both the stored and the newly determined, current average values are considered during the calibration, wherein the stored value is weighted more heavily, for example, or the weighting is carried out according to the number of output values used. After switching off the ignition of the vehicle, for example, always be started with the last stored value.

According to a next embodiment of the invention, it can be provided that the output value of the inclination sensor is used as the starting value for the averaging during a first startup of the vehicle. Because at a first startup of the control unit of the vehicle on the production line can be assumed that the vehicle is in the plane and the output value of the inclination sensor can be used.

In the proposed method, a calibration during vehicle standstill can also be done for example via a diagnostic command or reset command. The determined mean value can also be reset, for example, via a diagnostic device or set to a defined value, for example as a diagnostic command.

Claims

claims

1 . Method for calibrating a tilt sensor of a vehicle, during which the inclination of the vehicle is continuously determined as an output value at least in the direction of travel, characterized in that an average value is determined for the correction between the actual inclination and the determined inclination from a predetermined number of determined output values is used and for zeroing in the tilt sensor.

2. The method according to claim 1, characterized in that the mean value over a predetermined distance interval of the vehicle is determined.

3. The method according to claim 2, characterized in that the averaging is performed in dependence on the vehicle speed.

4. The method according to claim 3, characterized in that the vehicle speed and the distance covered are read in via a vehicle network from a control unit or determined from internal gear measurement variables.

5. The method according to any one of claims 2 to 4, characterized in that the length of the path interval is selected in dependence on the required accuracy of the calibration.

6. The method according to claim 5, characterized in that over the selected distance interval a predetermined number of output values determined and a moving average value is determined.

Method according to one of the preceding claims, characterized in that each output value is added up to a maximum fixed number and divided by the fixed number of the output values and stored as the current mean value until a next average value has been determined.

8. The method according to any one of the preceding claims, characterized in that the output value of the inclination sensor is used as the starting value for the averaging in a first commissioning of the vehicle.

9. The method according to any one of the preceding claims, characterized in that a calibration is performed in the vehicle standstill via a diagnostic command.

10. The method according to claim 9, characterized in that a determined mean value is reset via a diagnostic device and set to a defined value.