DE102005046374B3 - Detecting open-circuit common fuse, blocking current supply to vehicle components, opens component switches and determines potentials at associated nodes - Google Patents

Abstract

Switching devices (4) associated with the components (2) are opened. The potential is determined at each node (K) between a switching device (4) and a corresponding component (2). The open circuit fuse (9) (or other safety device) is diagnosed when the second supply potential (e.g. negative) is found by the detectors (8) at every node (K). Under this switching condition, there is a short circuit to the second supply potential at one of the nodes, when the second supply potential is not detected at every node. Determination of a node potential is carried out by closing the corresponding switch (4), whilst the remaining switches are opened. Potential data determined at the node is compared with a given reference potential. The method of detecting an open circuit fuse is carried out when the second supply potential is detected at least one of the nodes (K), even though the corresponding switch is opened. An independent claim is included for corresponding equipment.

Description

The The invention relates to a method for detecting a failure a common fuse in an electrical circuit with several components, especially in a motor vehicle. The invention further relates to an apparatus for detecting such Outage.

In Motor vehicles become common several electronically controllable components, such. B. lights, Electric motors and the like, about operated a joint backup. In doing so, the common connects Secure the several components, for example with the positive pole the battery while a corresponding switching device for switching the component are each arranged between the component and the negative pole of the battery. Either the switching devices each have a diagnostic unit in an integrated form on or between each switching device and a component, a diagnostic unit is arranged to the respective state of the through the component and the switching device to detect detected current path. This can be a short circuit to Plus pole or to the negative pole and a break in the line, that between the respective component and the switching device occurred, be diagnosed.

If the common fuse is broken and at least one of the Switching devices is switched through, diagnose the corresponding Diagnostic units in each of the current paths a short circuit to Negative pole. In this case, the potential at each of the switching devices becomes the associated component and over a switched through further current path to the potential of the negative pole drawn, since no supplied from the positive pole supply potential available in the current paths stands. Since each individual diagnostic unit only contains information about whether a Short circuit to the measuring potential, but no information about that gets whether the shared fuse is defective or functional, can be a diagnostic unit in the detection of a short circuit to the potential of the negative pole can not clearly determine whether such Short-circuit, or if the common fuse has failed is. As it is for the preparation for remedy of an error is expedient, to know if a joint backup has failed, or whether in a rung a short circuit has occurred, it would be desirable to be able to identify or exclude the failure of the common backup in advance before a cause of a possibly occurred one Short circuit is searched in one of the current paths.

From the DE 102 22 146 A1 a circuit arrangement for monitoring voltage chains such as accumulator cells or fuses a fuse series is known. It has a resistor network connected to the individual battery cells or fuses of a fuse bank, which consists of two series-connected measuring resistors in each case. Connected to the resistor network is a reference voltage source, and between the two sensing resistors is connected a multiplexer to which the output voltage is taken and which is controlled by a microprocessor connected to it and calculates the cell voltages at the battery cells or voltage at the fuses. As a result, the functionality of a fuse can be determined.

It is therefore an object of the present invention, a method and a device available to make a failure of a common fuse in one electrical circuit reliable to detect and from another error, such as to distinguish a short circuit occurring in one of the current paths.

These The object is achieved by the method according to claim 1 and by the Device solved according to claim 6.

Further advantageous embodiments of the invention are specified in the dependent claims.

According to one The first aspect of the present invention is a method for detecting a failure of a common fuse in an electrical Circuit provided with multiple components. The electric Circuit includes multiple current paths, each containing the components between a first supply potential via a respective switching device are connected to a second supply potential, a diagnostic unit in each of the rungs, to determine if at a node between the component and the switching device, the first or the second supply potential is present and the common fuse that the components with the first supply potential connects. The method for detecting Failure of the backup involves the following steps: Opening the Switching devices, determining a potential indication at each of Node between one of the switching devices and the corresponding Component, and detecting a failure of the backup when each of the potential indications indicates that at the node the second Supply potential is created.

The inventive method allows it, in an electric circuit with multiple current paths, in which components are switched with an associated switching device to determine if an error occurs either Short circuit exists in one of the current paths or whether the common Fuse has failed. Lies in each of the current paths between the component and the switching device, the second supply potential On, it can be concluded with high certainty that the first supply potential is not made available to the current paths which is the case in particular in the event of a failure of the fuse is.

Preferably can be detected that a short circuit to the second supply potential is present at one of the nodes, if not each of the specific potential indications indicates that the second supply potential is applied to the node is.

According to one preferred embodiment determining the potential indication at one of the nodes using a closing the corresponding switching device are performed while the remaining switching devices are open. This is particularly advantageous if the diagnostic unit integrated executed with the switching device and a determination of the potential at the corresponding node can only be determined by switching the switching device.

According to one preferred embodiment the potential indication can be determined by the potential at the respective nodes compared with a predetermined reference potential becomes.

According to one another preferred embodiment The invention may include the method for detecting a failure the backup performed when at least one of the nodes finds that the second supply potential is present, although the corresponding Switching device opened is. This will ensure that the procedure for Detecting a failure of the backup is performed only if already a fault has been detected in one of the current paths.

According to one Another aspect of the present invention is a device for detecting a failure of a common fuse in one electrical circuit provided with multiple components. The Device includes multiple current paths, each containing a component between a first supply potential via a respective switching device is connected to a second supply potential. A diagnostic unit in each of the rungs, to determine if at a node between the component and the switching device, the first or the second Supply potential, the common fuse that the Components with the first supply potential connects and one Control unit that is designed to operate in a detection mode, the switching devices to open, a potential indication at each of the nodes between one of the switching devices and the corresponding component and to determine a failure to recognize the common fuse, if any of the potentials indicates that the second supply potential is present at the node.

Preferably the control unit can detect that a short circuit to the second There is supply potential at one of the nodes, if not every one the specified potential data indicates that at the node the second Supply potential is created.

Farther the diagnostic unit can be designed so that the potential indication at one of the nodes by means of a closing of the corresponding switching device is determined while the remaining Switching devices open are.

The Diagnostic unit can be designed so that the potential indication is determined by the potential at the respective node with compared to the reference potential.

The Control unit can be designed so that the detection mode is taken when the diagnostic unit is detected on at least one of the nodes has that the second supply potential is present, although the corresponding Switching device opened is.

preferred embodiments The invention will be described below with reference to the accompanying drawings explained in more detail. It demonstrate:

1 a block diagram of a multi-component electrical circuit according to a preferred embodiment of the invention; and

2 a flowchart illustrating a preferred embodiment of the method according to the invention.

In 1 is an electrical circuit 1 shown in a motor vehicle, the several electrically operable components 2 in each case parallel current branches 3 having. The electrical circuit 1 has a common fuse 9 connected to a first terminal with a positive pole of a (not shown) supply power source is connected. A second connection of the common fuse 9 is with first connections of the components 2 connected. Second connections of the components 2 are each with an associated switching device 4 connected via the second port of the respective component 2 can be connected to the negative terminal of the supply source.

When Source of supply, for example, a battery or another Serve supply source, it is preferably this a DC power source having a positive pole and a negative pole.

The switching devices 4 are usually controlled by a central control unit 5 controlled, so that each of the components 2 can be operated independently of each other. These are the switching devices 4 via a respective control line 6 separately with the control unit 5 connected. Alternatively, the switching devices can also be connected to the control unit via a suitable bus system 5 be connected to the number of control lines 6 to reduce.

The switching devices 4 each have a diagnostic unit 8th on, with the help of which a state of conduction between the components 2 and the switching device 4 can be checked. In particular, by the diagnostic unit 8th a potential at a node between the components 2 and the corresponding switching device 4 be determined. Preferably, it may also be determined if there is no potential at the connection between the components 2 and the corresponding switching device 4 is applied. They are detection lines 7 provided, each of the switching devices 4 with the control unit 5 connect to error information about an error occurred to the control unit 5 to convey. Instead of the separate detection line 7 can the error information of the individual switching devices 4 also via a suitable bus system to the control unit 5 be transmitted. The control of the switching devices and the transmission of the error information can also be done via a common bus system.

Now put one of the switching devices 4 in the open state, that at the connection between the Schaltein direction 4 and its component 2 , represented by the node K, a negative potential, that is, a potential, which is provided by the negative terminal, is applied, so recognizes the diagnostic unit 8th the respective switching device 4 an error and reports this via the appropriate diagnostic line 7 to the control unit 5 , If a minus potential is detected at the corresponding node K, this can either be due to a short circuit occurring at the connection between the corresponding component and the switching device 4 causes or may be due to a failure of the common fuse 9 be caused when at least one other of the switching devices 2 closed is. In the latter case, the negative potential is over another of the switching devices 4 the associated component 2 as well as the component in the current branch 3 in which the minus potential has been detected at node K. Since both types of errors require different repair measures, it makes sense to detect at an early stage whether the error occurred is a short circuit or a failure of the common fuse 9 is.

Used by at least one of the diagnostic units 8th with opened switching device 4 reported that a negative potential is applied to the node K, so, are controlled by the control unit 5 , first of all switching devices 4 of the electrical circuit 1 opened and at each of the nodes K between one of the switching devices 4 and the corresponding component 2 an information about the potential applied there determined and a corresponding potential information to the control unit 5 transfer. The control unit 5 detects a failure of the shared fuse 9 , z. For example, if each of the potential information indicates that the minus potential is applied to the respective node. If the potential information indicates that the negative potential is not detectable at each of the nodes K, it is very likely not a failure of the common fuse 9 and it may indicate a short in the connection between one of the components 2 and the corresponding switching device 4 getting closed. Alternatively or additionally, a failure of the common fuse 9 be excluded if at least one of the nodes K, a plus potential provided by the positive pole, is applied. The potential information may be in the respective switching device or in the control unit 5 can be determined by the voltage applied to the node K potential is compared with the negative potential.

Are the switching device 4 and the diagnostic unit 8th formed in an integrated form as a circuit breaker, it is often common that the potential at the node K can only be determined when the switching device 4 is switched from an open to a closed state. In this case, opens the control unit 5 each of the switching devices 4 , one after the other closes each one of the switching devices 4 to diagnose the state of the corresponding node K, and opens it again.

In the illustrated construction of the electrical circuit 1 become the switching devices 4 operated as a low-side driver, as this is the connection between the component 2 and the negative pole of the battery. Alternatively, such a circuit can also be operated with switching devices which are designed as high-side drivers, the common fuse 9 is then placed between the power branches and the negative pole of the battery and the Schalteinrich lines connect the components with the positive pole of the battery.

In 2 a flow chart illustrating the process of the invention is shown. Starting from normal operation (block S1), where the control unit 5 the switching devices 4 in the desired manner, is checked regularly, whether at the node K with open switching device 4 a negative potential is present (block S2). If there is a minus potential there, it means that either the common fuse 9 has failed or that a short circuit in another branch 3 between the local component 2 and the local switching device 4 occured. As a result, now (block S3) all switching devices 4 opened and then the potentials on the connecting lines between the component and the switching device 4 each of the power branches 3 checked. A potential information is sent to the control unit 5 transferred (block S5) and there it is determined that a failure of the common fuse 9 when each of the potential information indicates that the nodes in the power branches 3 are at a negative potential (block S6, S7). If each of the potential information does not indicate that the corresponding node is at a negative potential, it can not respond to a failure of the shared fuse 9 be closed and it is detected as a fault possibly occurred short circuit. (Block S8).

Claims (10)

Method for detecting a failure of a common fuse ( 9 ) in an electrical circuit ( 1 ) with several components ( 2 ), in particular in a motor vehicle, wherein the electrical circuit ( 1 ) comprises: - several current paths ( 3 ), in which in each case the components between a first supply potential via a respective switching device ( 4 ) are connected to a second supply potential, - a diagnostic unit ( 8th ) in each of the current paths to determine if at a node (K) between the component ( 2 ) and the switching device ( 4 ) the first or the second supply potential is present, - the common fuse ( 9 ) connecting the components to the first supply potential; the method for detecting the failure of the fuse ( 9 ) comprises the following steps: - opening the switching devices ( 4 ); Determining a potential indication at each of the nodes between one of the switching devices ( 4 ) and the corresponding component ( 2 ); Detecting a failure of the fuse when each of the potential indications indicates that the second supply potential is applied to the node (K). The method of claim 1, wherein it is recognized that a short circuit to the second supply potential at one of Node is present, if not each of the specific potential specifications indicates that the second supply potential is applied to the node (K) is. Method according to claim 1 or 2, wherein the determination of the potential indication at one of the nodes (K) by means of a closing of the corresponding switching device ( 4 ), while the other switching devices ( 4 ) are open. Method according to one of claims 1 to 3, wherein the potential indication is determined by the potential at the respective node (K) is compared with a predetermined reference potential. Method according to one of claims 1 to 4, wherein the method for detecting a failure of the fuse ( 9 ) is performed when it is determined at least one of the nodes (K) that the second supply potential is present, although the corresponding switching device ( 4 ) is open. Device for detecting a failure of a common fuse ( 9 ) in an electrical circuit ( 1 ) with several components ( 2 ), in particular in a motor vehicle, comprising: - a plurality of current paths ( 3 ), in each of which a component between a first supply potential and via a respective switching device ( 4 ) is connected to a second supply potential, - a diagnostic unit ( 8th ) in each of the current paths to determine if at a node (K) between the component ( 2 ) and the switching device ( 4 ) the first or the second supply potential is present, - the common fuse ( 9 ) connecting the components to the first supply potential; and a control unit ( 5 ) which is designed to operate in a detection mode the switching devices ( 4 ) to determine a potential indication at each of the nodes between one of the switching devices and the corresponding component and to detect failure of the common fuse when each of the potential indications indicates that the second supply potential is present at the node. Apparatus according to claim 6, wherein the control unit ( 5 ) is configured to detect that there is a short circuit to the second supply potential at one of the nodes unless each of the determined potential indications indicates that the second supply potential is applied to the node (K). Apparatus according to claim 6 or 7, wherein the diagnostic unit ( 8th ) is designed so that the potential indication at one of the nodes (K) by means of a closing of the corresponding switching device ( 4 ), while the other switching devices ( 4 ) are open. Device according to one of claims 6 to 8, wherein the diagnostic unit ( 8th ) is designed so that the potential indication is determined by comparing the potential at the respective node with a reference potential. Device according to one of claims 6 to 9, wherein the control unit ( 5 ) is designed to enter the detection mode when the diagnostic unit ( 8th ) has detected at at least one of the nodes (K) that the second supply potential is present, although the corresponding switching device ( 4 ) is open.