WO2008142022A1

WO2008142022A1 - Identification of an increased power input in an electronic control unit

Info

Publication number: WO2008142022A1
Application number: PCT/EP2008/056049
Authority: WO
Inventors: Willibald Engelhard; Jens Niemann; Roland Pritscher
Original assignee: Continental Automotive Gmbh
Priority date: 2007-05-18
Filing date: 2008-05-16
Publication date: 2008-11-27
Also published as: DE102007023218A1

Abstract

The invention relates to an evaluation device for an electronic control unit (ECU) comprising an input for receiving information relating to a current supply to the electronic control unit (ECU) and/or relating to the temperature of said unit (ECU). The device also comprises a determination component for detecting an excessive power input of the electronic control unit (ECU) using said information and an output for emitting an output signal if an excessive power input is detected, said output signal relating to a reduction (ECU) of the current supply to the electronic control unit that is to be carried out. The invention also relates to a method and a computer programme product.

Description

description

Detecting an increased power consumption of an electronic control unit

The invention relates to an evaluation device for an electronic control device, a method for detecting an excessive power consumption of an electronic control device, and a computer program product.

Electronic control units, also known as ECU (Electronic Control Unit), are used in a wide variety of systems where control or regulation is required. An example of this is the use in motor vehicles. For example, electronic control units in motor vehicles are used to control electronic parking brakes.

To an increasing extent, conventional parking brakes, which can be controlled purely mechanically, are replaced by electronically controllable parking brakes or parking brake systems, in which the generation of the actuating force required for actuating the brake mechanism is controlled via an electronic control device. Depending on the presence of an electronic control signal of the electronic control unit, the parking brake is applied or released. For generating a force acting on the brake mechanism mechanical force, for example, an electric motor-gear unit is provided, which is connected for example with the brake mechanism via a cable system and can be controlled via the electronic control system. An electronic request signal from the driver for actuating the electronic parking brake is generated, for example, by an electronic operating element provided in the vehicle, in particular a touch, rocker or shift module. Alternatively, the electronic parking brake can be controlled via a control signal generated by a control routine of the electronic control unit without active involvement of the driver. The invention has the object of demonstrating an efficient evaluation device for an electronic control unit, for example for a vehicle with an electronic parking brake, as well as a corresponding method and a computer program product.

This object is achieved by an evaluation device with the features of claim 1, and by a method and a computer program product having features of independent claims. Advantageous embodiments and further developments are the subject of dependent claims.

The evaluation device according to the invention for an electronic control unit comprises an input for receiving information relating to a power supply to the electronic control unit and / or a temperature of the electronic control unit. Furthermore, a detection component is provided for detecting an excessive power consumption of the electronic control apparatus using the information, and an output for outputting an output signal in case of detecting an excessive power consumption. In this case, the output signal relates to a reduction in the power supply to the electronic control unit to be performed.

To determine that an excessive power consumption of the electronic control unit is present, information is used by the evaluation device, which it has previously received. This information can either concern a power supply to the electronic control unit, or a temperature of the electronic control unit, or both the power supply and the temperature. These values are preferably the current values for power supply or temperature. With regard to the temperature, information relating to a temperature difference is particularly suitable. The information can be made available to the evaluation device continuously, eg at periodically recurring times. For the recording of formations, suitable sensors are used. The data acquired by the sensors can be made available to the evaluation device as such directly or after data processing.

An increase in power consumption corresponds to an increase over a normal state. The normal state can be defined in various ways, in particular depending on the actual mode of operation or the field of application of the electronic control unit. The power consumption is the electrical power supplied to the electronic power supply control unit, e.g. from a battery. To determine the increase in power consumption, the evaluation device may have access to normal values or parameters.

If it is detected that the power consumption is excessive, the determination component or another component of the evaluation device can produce an output signal. The output signal indicates that the power supply to the electronic control unit should be reduced. The output signal will be output by the evaluation device, e.g. to a responsible for the regulation of the power supply to the electronic control unit. Alternatively, by the output signal directly a switching or control device in the power supply of the electronic control unit can be activated. In the reduction of the power supply may be a complete cut off the power supply, so that the power supply to the electronic

Control unit is reduced to zero, or a partial reduction only.

In a development of the invention, the determination component is designed to detect an excessive power consumption using a comparison of the information with at least one comparison value. For example, this comparison value may be one determined from an idle power supply Include the value of the power supply. The idle state corresponds, for example, to a state of the electronic control device with low power consumption, for example a state in which the electronic control device does not issue any instructions.

In a development of the invention, the information relates to a first and a second temperature of the electronic control unit, and the determination component is designed to detect an excessive power consumption using a comparison of the first temperature with the second temperature. In this case, the first temperature may correspond to a temperature at a first location of the electronic control unit, and the second temperature to a temperature at a second location of the electronic control unit. As a result, temperature values recorded at different points in particular can be compared with one another at the same time. Alternatively, it is possible for the first and second temperatures to be at different times at the same location. In this way, in particular the temporal course of the temperature can be evaluated.

In an embodiment of the invention, the evaluation device is part of a different device of the electronic control unit. In this case, it is possible that the evaluation device is used only for the explained assessment of an excessive power consumption of the electronic control unit. Alternatively, the evaluation device may be part of the electronic control unit. In the latter case, the evaluation device and the other components of the electronic control unit are in a common housing.

It is possible that the electronic control unit is responsible for controlling an electronic parking brake of a motor vehicle. The evaluation device may have a checking component for determining whether the electronic control unit is in an idle state, and an output for outputting the output signal only in the case of the determined idle state. The creation of the output signal is in this case not always at an excessive power consumption, but only at an excessive power consumption at rest. The determination that the electronic control unit is in an idle state can be based, for example, on a particular idle state

Range of power consumption of the electronic control unit are determined.

The evaluation system according to the invention comprises an evaluation device of the type described, sensors for acquiring the information, and a reduction component for reducing the power supply to the electronic control device in response to the output signal.

In the method according to the invention for detecting an excessive power consumption of an electronic control unit, information is ascertained relating to a power supply to the electronic control unit and / or concerning a temperature of the electronic control unit. Using the information, an excessive power consumption of the electronic control unit is detected. Following this detection, the power supply to the electronic control unit is reduced.

The computer program product according to the invention has the functionality of an input for receiving information regarding a power supply to the electronic control unit and / or a temperature of the electronic control unit, as well as the functionality of a determination component for detecting an excessive power consumption of the electronic control unit using the information, and the functionality of an output for outputting an output signal in case of detection of an excessive Power consumption. In this case, the output signal relates to a reduction in the power supply to the electronic control unit to be performed. In the context of the present invention, a computer program product can, in addition to the actual computer program (with its technical effect beyond the normal physical interaction between program and arithmetic unit), be in particular a record carrier for the computer program, a file library, a configured arithmetic unit but also, for example, a Storage device or a server on which the

Computer program belonging files are stored, understood.

The computer program product according to the invention and the method according to the invention are particularly suitable for the evaluation device according to the invention, and this can also apply to the refinements and developments. For this purpose, they can comprise further suitable steps or functionalities.

In the following the invention will be explained in more detail with reference to an embodiment. Here are shown schematically:

FIG. 1: a motor vehicle with an electronic parking brake,

Figure 2: an evaluation.

The vehicle F of Figure 1 has an electronic parking brake system. It can be provided for each wheel of the motor vehicle F own parking brake PB, or even just a parking brake PB for the motor vehicle F. By way of example, two parking brakes PB are shown in Figure 1. For the activation and the release of the parking brake PB, the electronic control unit ec ECU is responsible; if the electronic control unit ECU decides that an activation or a release of the parking brake PB is to take place, commands sent to the actuators by the electronic control unit ECU are transmitted to actuators, which cause activation or release of the parking brake PB.

The electronic control unit ECU is supplied with electrical energy by a not shown power supply unit. In the electronic control unit ECU, various error cases may occur, resulting in an increased power consumption of the electronic control unit ECU, i. based on a time unit to an increased supply of e- lektrischer energy from the power supply unit to the electronic control unit ECU, and thereby can lead to a strong evolution of heat. This overheating can lead to a burning of the electronic control unit ECU and possibly even the vehicle F.

Examples of such error cases are:

• Short circuits in components inside the electronic control unit ECU.

• Water entering the electronic control unit ECU. This can e.g. unintentional switching of components, e.g. of MOSFETs, thereby allowing short circuit currents.

• Electromigration. This can e.g. caused by incoming water or the mobile ions within the water, whereby short-circuit currents are possible.

• Components released by vibration. If, for example, components located in metal sheaths are loosened, short circuits can occur as a result.

An evaluation device A shown schematically in FIG. 2 is used, which detects an increased power consumption of the electronic control unit ECU. For this purpose, the evaluation device A has an input via which it receives the information IN. Using the information IN, the evaluation device A decides whether there is currently an increased power consumption of the electronic control unit ECU. If the evaluation device A determines that an increased power consumption of the electronic control unit ECU is present, the evaluation device A sends a message S to a control unit BAT. The connection between the evaluation device A and the control unit BAT can be done for example via CAN or a control line. The control unit BAT is a unit responsible for setting the power supply of the electronic control unit ECU, for example an electronic control unit responsible for the battery management.

If the control unit BAT receives a message S from the evaluation device A, it interrupts the power supply to the electronic control unit ECU, e.g. using a relay. Thus, the increased power consumption of the electronic control unit ECU is aborted, so that further heating of the electronic control unit ECU is no longer to be feared. Damage or even burning off of the electronic control unit ECU can thus be avoided in good time.

The information IN may be, for example, the current current consumption of the electronic control unit ECU. This can be determined by measurement in the power supply line of the electronic control unit ECU. An increased power consumption is when the current value of the current consumption exceeds a certain threshold. If the electronic control unit ECU has a current consumption of 100 mA, for example in the standby state, then the value 100 mA, possibly increased by a safety threshold, or the n-fold, eg three times, of 100 mA, can be used as the threshold value , On the basis of the comparison of the current current consumption of the electronic control unit ECU with the threshold, the evaluation device A decides whether there is an increased power consumption. The use of a threshold value defined via the standby state is particularly suitable for the electronic control unit ECU of an electronic parking brake, because this is almost exclusively in the standby state. The operating state of the electronic control unit ECU corresponds to only the short phases during which the parking brake is applied or released by the electronic control unit ECU; this is about 0.1% of the time.

In addition or as an alternative to taking into account the current consumption, the information IN may be a temperature of the electronic control unit ECU. If the temperature exceeds a certain threshold, the evaluation device A decides that an increased power consumption of the electronic control unit ECU is present. For the determination of the temperature, a temperature sensor is used at a location of the electronic control unit ECU which is sensitive for the heating due to increased power consumption.

As an alternative to using a single temperature sensor, a plurality of temperature sensors may be used. Thus, e.g. a first temperature sensor is applied to a location sensitive to heating due to increased power consumption of the electronic control unit ECU and a second temperature sensor to an insensitive to heating due to increased power consumption point of the electronic control unit ECU or at a position outside of the electronic control unit ECU. If the measured temperature of the first temperature sensor exceeds that of the second temperature sensor by a certain minimum amount, the evaluation device A decides that an increased power consumption of the electronic control unit ECU is present. About this difference or delta

Measuring principle, it is possible to eliminate external factors such as an increase in the outside temperature. For the operating state of the electronic control unit ECU, ie the state in which a relation to the standby state increased power consumption in the context of the proper functioning of the electronic control unit ECU is expected, the review of increased power consumption by the evaluation device A and / or the dispatch the message S are exposed by the evaluation device A. For this purpose, the evaluation device A is informed when no activities or when activities of the electronic control unit ECU are present. By restricting the check of the power consumption to the standby state, it is avoided that the proper functioning of the electronic control unit ECU is impaired by the evaluation device A.

The evaluation device A may be a device separate from the electronic control unit ECU. Alternatively, it is possible that the evaluation device A is part of the electronic control unit ECU. In the latter case, it is possible that the electronic control unit ECU, when an increased power consumption is detected, automatically interrupts the current path, i. without interposition of the control unit BAT. This can e.g. as an emergency shutdown via relay.

Due to the presented procedure, an increased power consumption can be detected early and interrupted. For this purpose, no expensive measures, such. Seals / coatings against water ingress or a redundant circuit of components, e.g. a series circuit of capacitors to avoid short circuits, necessary. The function of the evaluation device A can be taken over by a device provided for this purpose or by a device provided anyway for other purposes.

The invention has been described above by means of an embodiment. It will be understood that numerous changes and modifications are possible without departing from the scope of the invention. is left. For example, while the embodiment described relates to an electronic control unit ECU for an electronic parking brake by way of example, the invention can also be applied to other electronic control units.

Claims

claims

1. evaluation device (A) for an electronic control unit (ECU), with an input for receiving information (IN) concerning a power supply to the electronic control unit (ECU) and / or relating to a temperature of the e- lektronischen control unit (ECU), a A determination component for detecting an excessive power consumption of the electronic control unit (ECU) using the information (IN), an output for outputting an output signal (S) in case of detecting an excessive power consumption, wherein the output signal (S) is a reduction to be made the power supply to the electronic control unit (ECU) concerns.

2. Evaluation device (A) according to claim 1, wherein the determination component is designed to detect an excessive power consumption using a comparison of the information (IN) with at least one comparison value.

3. evaluation device (A) according to claim 2, wherein the comparison value from a hibernation

Power supply detected power supply includes.

4. evaluation device (A) according to any one of claims 1 to 3, wherein the information (IN) relate to a first temperature of the electronic control unit (ECU) and a second temperature of the electronic control unit (ECU), and the determination component is designed to detect an excessive Power consumption using a comparison of the first temperature with the second temperature.

5. evaluation device (A) according to claim 4, wherein the first temperature of a temperature at a first position of the electronic control unit (ECU) and the second temperature of a temperature at a second position of the electronic control unit (ECU) correspond.

6. evaluation device (A) according to any one of claims 1 to 5, wherein the evaluation device (A) is part of one of the e- electronic control unit (ECU) different device.

7. evaluation device (A) according to one of claims 1 to 5, wherein the evaluation device (A) is part of the electronic control unit (ECU).

8. evaluation device (A) according to any one of claims 1 to 7, wherein the electronic control unit (ECU) for controlling an electronic parking brake (PB) of a motor vehicle (F) is responsible.

9. evaluation device (A) according to any one of claims 1 to 8, with a Verprüfungsbestandteil for determining whether the electronic control unit (ECU) is in an idle state, and an output for outputting the output signal (S) only in the case of the determined idle state.

10.Auswertesystem with an evaluation device (A) according to any one of claims 1 to 9, sensors for detecting the information (IN), and a Reduzierungsbestandteil for reducing the power supply to the electronic control unit (ECU) to the output signal (S) out.

11. A method for detecting an excessive power consumption of an electronic control unit (ECU), in which information (IN) is determined concerning a power supply to the electronic control unit (ECU) and / or a temperature of the electronic control unit (ECU), using the information (IN) an excessive power consumption of the electronic control unit (ECU) is detected, on the detection of the excessive power consumption towards a reduction of the power supply to the electronic control unit (ECU) takes place.

12. Computer program product, having an input for receiving information (IN) concerning a power supply to an electronic control unit (ECU) and / or relating to a temperature of the electronic control unit (ECU), a determination component for detecting an excessive power consumption of the electronic control unit (FIG. ECU) using the information (IN), an output for outputting an output signal (S) in case of detecting an excessive power consumption, wherein the output signal (S) relates to a reduction in power supply to the electronic control unit (ECU) to be performed.