DE10301905B4 - fuse circuit - Google Patents

Abstract

Fuse circuit for an electrical consumer of a motor vehicle door lock
with a power output (2) for supplying the electrical load,
with a circuit breaker (3) for connecting the power output (2),
with a measuring arrangement (4) and
with an evaluation arrangement (5),
wherein by means of the measuring arrangement (4) the load state of the consumer can be measured and converted into an electrical measurement signal,
wherein the measuring signal is applied to a signal output (6) of the measuring arrangement (4),
wherein the measuring arrangement (4) is coupled via its signal output (6) to the evaluation arrangement (5),
in case of overload of the consumer, the evaluation arrangement (5) from the normal state falls into an error state, and
wherein the evaluation device (5) located in the fault state causes the disconnection of the power output (2) via its coupling with the power switch (3),
wherein the evaluation device (5) located in the error state remains in the error state independently of the further measured load state of the consumer,
wherein the evaluation arrangement (5) has a self-holding circuit with a control input (7) and ...

Description

The The present invention relates to a fuse circuit for a electrical consumer of a motor vehicle door lock with the features the preamble of claim 1 and a terminal assembly for one electrical consumer of a motor vehicle door lock with the features of the preamble of claim 9. Present are under the term Motor vehicle door lock all kinds from door, Hood or flap locks summarized.

At the Operation of electrical consumers in motor vehicles is basically a concern to carry that in the Fault occurs a shutdown of the respective consumer, to the consumer from destruction to protect and the emergence of high temperatures and the associated To counteract the danger of a fire. This is especially true for consumers with relatively high power consumption, such as the drive motors of adjusting elements in motor vehicle door locks.

One potential Error case is, for example, the jamming of the drive motor the central locking device of a motor vehicle door lock. By blocking the drive motor high short-circuit currents flow through its windings, so that high Temperatures arise and the drive motor is possibly destroyed. Another source of error is the faulty activation of a Consumer, for example, when a drive motor via a longer Period is operated above its rated power.

A Many consumers today have integrated protection mechanisms which may expose the consumer to an excessively high current or to a inadmissible switch off high temperature. When switched off the sink Electricity and temperature, so that after If the minimum values set fall below the restart level of the consumer. For the design of these protections are from the state of Technique a number of variants known. In the simplest case are PTCs switched into the supply line of the consumer, so that at elevated temperature the effective value of the PTC resistor increases and that on the consumer voltage drops. Furthermore, thermal protection switches are known, which are configured for example as a bimetallic switch and at increased Temperature cause the shutdown of the consumer as long as the temperature has dropped accordingly. The mentioned protection mechanisms can, as described, integrated into the consumer or separately be arranged by the consumer.

Especially the protective mechanisms described above are effective if the error case only about a short period of time. This is the case, for example, when the motor vehicle door lock only slightly iced is and start the drive motor of the central locking device several times must, um the motor vehicle door lock finally at third or fourth attempt to unlock. It is different, though the source of error is constantly present, for example, when a winding of the drive motor of the central locking device has a short circuit. In that case, would the drive motor with one of the above protections in his Control on or off, which is not only leads to disturbing noises, but also to a load of the corresponding electrical components. Especially with thermal circuit breakers, it can in such Be the case that the maximum switching play limit is reached and it is sticking together the contacts come. On the other hand, but not already with short overloads the consumer will be turned off.

The fuse circuit from which the present invention is based ( DE 37 33 088 A1 ), is coupled via a circuit breaker to the consumer. A current detection arrangement is provided, the signals of which are evaluated by an evaluation unit. The circuit breaker is driven in such a way by the evaluation that in the event of an error, the shutdown of the consumer takes place and this remains off until reset.

The previously explained Fuse circuit does not provide a satisfactory solution for a short-term fault, because the consumer is also shut down immediately. Of the The present invention is therefore based on the problem known Design fuse circuit and further develop that with minimal Effort a short-term fault tolerance, but otherwise at a permanently existing fault, a satisfactory protective effect is achieved.

The The present problem arises in a fuse circuit having the features of the preamble of claim 1 by the features of the characterizing one Part of claim 1 solved.

It is essential first of all the consideration that the consumer to be disconnected in the event of a fault is not switched off in case of short-term overloads. This has the advantage that, although the consumer is protected against damage, but not unnecessarily often turned off. In detail This is achieved in that the evaluation device coupled to the circuit breaker has an integrator which has a certain tolerance range.

It are a variety of ways to design and develop the said teaching of the invention. For this may refer to the dependent claims become.

To Another teaching is the present problem for a terminal assembly with the features of the preamble of claim 9 by the features solved the characterizing part of claim 9. Essential here is the Fact that the Connector assembly, which is designed in a preferred embodiment as a cable harness, having the above-described fuse circuit. Such Embodiment of the connection arrangement is with the embodiment of the fuse circuit according to claim 1 so far particularly advantageous, as the resulting arrangement is very compact.

in the The following is the invention with reference to an embodiment only drawing closer explained. The sole figure of the drawing shows a fuse circuit for an electrical Consumer of a motor vehicle door lock o. The like.

First, it should be noted that in the drawing, a terminal for the supply voltage U ₀ and a terminal for ground (0V) is provided, to which a fuse circuit for a not-shown electrical consumers of a motor vehicle door lock is connected. For the motor vehicle door lock all types of door, hood or flap locks can be provided here. The fuse circuit has a power output 2 on, to which the electrical load is connected and which ensures the supply of electrical energy to the consumer. There are also a circuit breaker 3 , a measuring arrangement 4 and an evaluation arrangement 5 provided, wherein the circuit breaker 3 and the measuring arrangement 4 present in a single component are summarized.

The circuit breaker 3 serves the wiring of the power output 2 , Essential for the present consideration is the fact that the power output 2 through the circuit breaker 3 can be switched off. With the shutdown of the power output 2 In the present case, it is meant that the circuit breaker 3 no additional electrical power via the power output 2 to the consumer.

By means of the measuring arrangement 4 In the present case, the load state of the load can be measured and converted into an electrical measurement signal. The measuring signal is located at a signal output 6 the measuring arrangement 4 at. The term "load condition" in the present case summarizes all information that provide information about the electrical power consumption of the consumer. The typical information here, as already explained in the introduction, the temperature and the current flowing through the load current.

The measuring arrangement 4 is over her signal output 6 with the evaluation arrangement 5 coupled, so that at the signal output 6 applied measuring signal from the evaluation arrangement 5 can be further processed.

In case of overload of the consumer, it is now provided that the evaluation arrangement 5 from the normal state falls into an error state. The evaluation device located in the error state 5 causes an even closer to be explained coupling with the circuit breaker 3 the shutdown of the power output 2 ,

With "overload" can depending on the application, different states of the consumer meant be. Generally, "overloading" means a consumer, that this an undesirable high power consumption shows. For example, the fact that the flowing through the consumer Current exceeds a certain threshold current, already as overload To be defined. But it may also be that in the sense of low-pass filtering this overcurrent a predetermined period of time must stop the overload of the consumer to substantiate. The same considerations apply to possible Definitions of overload of the consumer using temperature values. present The term "overload" should apply in general and not limited to any of the definitions described.

It is essential that the evaluation arrangement 5 is configured such that the evaluation device located in the error state 5 regardless of the further measured load state of the consumer remains in the error state. The advantages of this particular embodiment have been explained in the general part of the description. This may be referred to.

In a particularly preferred embodiment, the measuring arrangement 4 a current sensing arrangement, the current sensing arrangement preferably converting the current flowing through the load into a voltage proportional to the current flowing through the load. That of the measuring arrangement 4 generated and at the signal output 6 applied measuring signal consists in this case in a voltage proportional to the current. However, it may also be that the measuring signal is for example a pulsed voltage and that the pulse length is proportional to the current. For the conversion of the measured current, numerous other possibilities are known from the prior art. This may be referred to.

It may also be advantageous that the measuring arrangement 4 having a temperature sensing arrangement. This can serve, for example, to measure the temperature of the consumer. But it is also possible to detect the on the circuit breaker 3 prevailing temperature, which also provides information about the power consumption of the consumer. On the conversion of the temperature in a measuring signal by means of the measuring arrangement 4 are the solutions shown in connection with the current detection arrangement applicable.

Around a particularly secure detection of the load state of the consumer to be able to reach it is finally conceivable that the measuring arrangement both a current sensing arrangement and a temperature sensing arrangement having.

The blocking capability of the evaluation arrangement described above 5 in the error state is realized in a preferred embodiment, characterized in that the evaluation arrangement 5 has a self-holding circuit. In this case, the self-holding circuit has a control input 7 on, by the application of a voltage, the self-holding circuit can be brought into its holding state. Furthermore, the self-holding circuit has a switching output 8th on that with the circuit breaker 3 , in particular with a control input 9 of the circuit breaker 3 , is coupled. The control input 7 the self-hold circuit is present with the signal output 6 the measuring arrangement 4 coupled.

In the following it is assumed that the measuring arrangement 4 having only a current detection arrangement and that at the signal output 6 the measuring arrangement 4 a voltage proportional to the current is applied. In principle, however, the following statements are applicable to all other variants already explained.

The self-holding circuit is now designed so that it switches in overload condition of the consumer in its holding state - error state of the evaluation arrangement 5 - And that the self-hold circuit located in the holding state via the switching output 8th and the control input 9 of the circuit breaker 3 the shutdown of the power output causes.

For the realization of the self-holding circuit, numerous variants are known from the prior art (eg RS flip-flop). This may be referred to. A particularly preferred embodiment is that the self-holding circuit of two transistors connected in series 10 . 11 is constructed. The embodiment of the two transistors 10 . 11 is largely arbitrary, in this case it is provided that the first, left in the drawing transistor 10 as npn transistor and the second, shown in the drawing right transistor 11 is designed as a PNP transistor.

Essential for the self-holding is the fact that the collector 12 of the first transistor 10 with the base 13 of the second transistor 11 is coupled, so that when the first transistor 10 over the base-emitter path of the second transistor 11 a voltage is applied, which is due to the resistances 14 and 15 and the supply voltage U ₀ determined. With appropriate design of the resistors 14 . 15 becomes when the first transistor is conducting 10 also the second transistor 11 conductive, so that a current flow from the second transistor 11 over the diode 16 further on an intermediate circuit to be described by the base-emitter path of the first transistor 10 is possible. This will be the first transistor 10 through the second transistor 11 "activated", and the second transistor 11 again through the first transistor 10 "Activated". So here is a self-holding effect.

It is essential that the coupling between the signal output 6 the Meßanordung 4 and the control input 7 the self-holding circuit described a low-pass circuit 17 having. This low-pass circuit consists of the two resistors 18 . 19 and the capacity 20 together. This ensures that a short-term overload of the load does not directly turn off the power output 2 leads, but that here a desired time constant can be set.

In the case of current measurement is at the signal output 6 the measuring arrangement 4 Preferably, a voltage proportional to the current flowing through the load, the first to the low-pass circuit 17 acts. Depending on the time constant of the low-pass circuit 17 becomes the capacitor 20 charged until the first transistor 10 in the conductive state, whereby, as described above, the self-holding circuit is transferred to its holding state.

If now the evaluation arrangement 5 in the fault state and thus the self-holding circuit is in the hold state, so there is the second transistor 11 in the conducting state, so that a corresponding current through the resistor 21 flows. This is above the switching output 8th the self-holding circuit a voltage at the control input 9 of the circuit breaker 3 at what a shutdown of the power output 2 at the circuit breaker 3 causes. This ensures that when located in the error state evaluation arrangement 5 the power output 2 is always switched off.

With the above is also the meaning of the diode 16 clear. It prevents the signal output 6 the measuring arrangement 4 directly on the control input of the circuit breaker 3 acts and possibly an unwanted shutdown of the power output 2 causes.

The capacitor 22 is in the present case a buffer capacitor for stabilizing the power supply of the circuit breaker 3 or the measuring arrangement 4 ,

There are now at least two ways to operate the backup circuit described with a consumer. One possibility is that to the terminal 2 a relay is connected, via which the consumer can be switched on or off. Another possibility is that the circuit breaker 3 itself is used as a relay, so that the control of the consumer in the normal state via the circuit breaker 3 he follows. Another possibility could be to accomplish the switching on and off of the consumer by switching on or off the supply voltage U ₀ . However, this would be a reset of the evaluation arrangement with each switching off the consumer 5 connected because the transistors in switching off their non-conductive state. Depending on the application, this may be advantageous or undesirable.

The question of how the evaluation arrangement 5 From the error state back to the normal state can be brought, in the present case is of particular importance. In a preferred embodiment, it is provided, the evaluation arrangement 5 to bring by a reset operation of the error state in the normal state. This reset operation can be done manually, for example, by the operation of a switch, by a timer or by similar measures. As can be seen from the drawing, a reset operation can also be realized by the fact that the control input 7 the self-holding circuit is switched to ground in the hold state.

In a particularly preferred embodiment, no "own" circuitry measure is provided for the reset process, so that the reset operation can be accomplished only by the separation of the fuse circuit of the supply voltage. This is advantageous, for example, if the evaluation arrangement 5 as long as the error state should remain until the error was repaired.

For the design of the hardware of the security circuit numerous possibilities are conceivable. In a preferred embodiment, at least part of the security circuit is designed as an integrated circuit (IC). This leads to low component costs, especially when standard components are used. In the illustrated and so far preferred embodiment, the circuit breaker 3 on the one hand and the measuring arrangement 4 on the other hand realized in a single component. This leads to a particularly compact design of the circuit arrangement.

To another doctrine of independent significance a connection arrangement for one electrical consumer of a motor vehicle door lock o. The like. Claims. Such a connection arrangement serves the purpose of electrical supply of the motor vehicle door lock or individual consumer of the motor vehicle door lock. This is the connection arrangement on the one hand to the electrical interface of the motor vehicle door lock, in particular to the consumer of the motor vehicle door lock and on the other hand to a control device o. The like. Connected. At Place the controller can also be a simple relay o. Like. occur.

Essential here is the fact that the terminal arrangement itself the above-described fuse circuit 1 having. This is in particular with regard to the compact design of the fuse circuit described above 1 well feasible. The advantage here is in particular the fact that the fuse circuit 1 no additional space in the controller or in the consumer must be granted. It can in a sense be "flying" wired. In a preferred embodiment, the terminal assembly is then configured as a cable harness, wherein the fuse circuit 1 is integrated in the harness. Especially for tailgate locks, this is a preferred variant.

Claims (10)

Fuse circuit for an electrical consumer of a motor vehicle door lock with a power output ( 2 ) for the supply of the electrical consumer, with a circuit breaker ( 3 ) for wiring the power output ( 2 ), with a measuring arrangement ( 4 ) and with an evaluation arrangement ( 5 ), wherein by means of the measuring arrangement ( 4 ) The load condition of the consumer measurable and in a elektri sches measuring signal is changeable, wherein the measuring signal at a signal output ( 6 ) of the measuring arrangement ( 4 ) is applied, wherein the measuring arrangement ( 4 ) via its signal output ( 6 ) with the evaluation arrangement ( 5 ) is coupled, in case of overload of the consumer, the evaluation arrangement ( 5 ) falls from the normal state into an error state and wherein the evaluation device ( 5 ) via their coupling with the circuit breaker ( 3 ) the shutdown of the power output ( 2 ), whereby the evaluation arrangement ( 5 ) remains in the error state regardless of the further measured load state of the consumer, the evaluation arrangement ( 5 ) a self-holding circuit with a control input ( 7 ) and with a switching output ( 8th ), wherein the control input ( 7 ) with the signal output ( 6 ) of the measuring arrangement ( 4 ), wherein the switching output ( 8th ) with the circuit breaker ( 3 ) is coupled, wherein the self-holding circuit located in fault state evaluation arrangement ( 5 ) is in its holding state and wherein the self-hold circuit located in the holding state via the switching output ( 8th ) and the circuit breaker ( 3 ) a shutdown of the power output ( 2 ), characterized in that the coupling between the signal output ( 6 ) of the measuring arrangement ( 4 ) and the control input ( 7 ) of the self-holding circuit a low-pass circuit ( 17 ) - integrator - has. Fuse according to claim 1, characterized in that the low-pass circuit ( 17 ) of two resistors ( 18 . 19 ) and a capacity ( 20 ) and / or that at the Tießpaßschaltung ( 17 ) A respective desired time constant is adjustable. Fuse circuit according to Claim 1 or 2, characterized in that the self-holding circuit consists of two series-connected transistors ( 10 . 11 ) and that, preferably, a transistor ( 10 ) as npn transistor and the other transistor ( 11 ) is designed as a PNP transistor. Fuse circuit according to one of Claims 1 to 3, characterized in that the measuring arrangement ( 4 ) has a temperature sensing arrangement. Fuse circuit according to one of the preceding claims, characterized in that the evaluation arrangement ( 5 ) Can be brought by a reset operation of the error state in the normal state. Fuse circuit according to Claim 5, characterized that the Reset operation, preferably exclusively, can be triggered by the separation of the fuse circuit from the supply voltage. Fuse circuit according to one of the preceding claims, characterized in that at least a part of the fuse circuit ( 1 ) is designed as an integrated circuit (IC). Fuse circuit according to Claim 7, characterized in that the measuring arrangement ( 4 ) on the one hand and the circuit breaker ( 3 ) On the other hand, are realized by a single component. Connection arrangement for an electrical load of a motor vehicle door lock, wherein the connection arrangement on the one hand to an electrical interface of the motor vehicle door lock, in particular to the consumer of the motor vehicle door lock, and on the other hand to a control device o. The like. Connected, characterized in that the connection arrangement a security circuit ( 1 ) for the consumer, having the features of one of the preceding claims. Connection arrangement according to Claim 9, characterized in that the connection arrangement is designed as a cable strand and in that the safety circuit ( 1 ) is integrated in the cable harness.