DE102016013488A1 - Circuit arrangement, HV electrical system for a motor vehicle and method for monitoring an electrical connection between a connection device and an electrical component - Google Patents

Abstract

The invention relates to a circuit arrangement (10) having an electrical component (14) and a connection device (16) which is electrically connectable to the electrical component (14), wherein the circuit arrangement (10) comprises an interlocking circuit arrangement (12) an evaluation device (28) which is designed to detect when the connection device (16) is separated from the electrical component (14). In this case, the interlock circuit arrangement (10) has an optical output device (18; 30) for outputting a predetermined optical signal and an optical receiving device (20; 32) which is designed for the case in which the connection device (16) the electrical component (14) is connected to receive the optical signal output by the optical output device (18; 30) in a predetermined manner, wherein the evaluation device (28) is designed to detect that the connection device (16) is disconnected from the electrical device Component (14) is disconnected when the optical signal is not received in the predetermined manner by the receiving means (20; 32)

Description

The invention relates to a circuit arrangement having an electrical component and a connection device, which is electrically connectable to the electrical component, wherein the circuit arrangement comprises an interlock circuit arrangement which comprises an evaluation device which is designed to detect when the connection device from the electrical Component is separated. Furthermore, the invention relates to a HV electrical system for a motor vehicle and to a method for detecting whether a connection device which can be coupled to an electrical component of a circuit arrangement is connected to the electrical component.

So-called interlock circuit arrangements are known from the prior art. The interlock is a safety function intended to detect unplugged plug connections in HV (high-voltage) systems. Each component of a vehicle's HV system has two pins on each HV connector, which are pressed from the opposite side, so short-circuited. If the pins are bridged, a current can flow through this bridge, for example, and be detected by the plug connection being properly inserted.

Such an interlock circuit is also in the DE 102 10 665 C1 described. There, a device for distributing electrical energy is disclosed, wherein the electrical consumers via lines at the ends of connector halves are arranged, with connector halves of the distributor unit are connectable, and further arranged on the consumer side ends of the lines connector halves are connected to connector halves of the consumer. In this case, the connection part halves connected to the lines have line bridges which serve to close or open a line section of a diagnostic circuit, and wherein between the power generation unit and the distribution unit, a switching means is arranged, which is controllable via a control unit and the diagnostic circuit, a signal generator and an evaluation assigned.

Typically, in such diagnostic devices, a voltage or current is generated at the LV level, particularly where LV is the 12V network of a vehicle, with the generated current flowing through the depressed interlock pins. Due to the construction-related spatial position between the interlock pins and the HV terminals of the HV connector, there is the possibility that electromagnetic interference from the HV electrical system in the LV network couple. On the one hand, this can lead to misdiagnosis as to whether plug-in connections are properly inserted or not, and on the other hand, this can generally lead to malfunctions in the 12-Bornetz of the motor vehicle. In addition, such an interlock circuit can be manipulated very easily by interconnecting the interlock pins via a zero-ohm bridge. An improperly plugged HV connector can therefore no longer be detected.

It is therefore an object of the present invention to provide a circuit arrangement, a high-voltage vehicle electrical system and a method which provide a detection option which is more robust with respect to electromagnetic interference and manipulation in order to determine whether a plug connection has been inserted correctly.

This object is achieved by a circuit arrangement, by an HV vehicle electrical system and a method having the features according to the respective independent claims. Advantageous embodiments of the invention are specified in the dependent claims.

The circuit arrangement according to the invention with an electrical component and a connection device, which is electrically connectable to the electrical component, has an interlocking circuit arrangement which comprises an evaluation device which is designed to detect when the connection device is disconnected from the electrical component. In this case, the interlock circuit arrangement has an optical output device for outputting a predetermined optical signal and an optical receiving device which is designed, in the case that the connecting device is connected to the electrical component, that the optical signal output from the optical output device in a predetermined Way to receive, wherein the evaluation device is further configured to detect that the connection device is disconnected from the electrical component, when the optical signal is not received in the predetermined manner by the receiving device.

This provides some sort of optical interlock. Because an optical signal is used to detect a proper plug connection, namely between the connection device and the electrical component, this optical detection variant is significantly more robust against electromagnetic interference. The risk of misdiagnosis can thus be significantly reduced as well as other disturbances of the LV network, which may be due to a coupling of electromagnetic influences from the HV network. In addition, since such an optical signal is not so easy to bridge, In particular, not without the knowledge of the predetermined manner in which the receiving device is to receive the optical signal in the case of proper operation or in the case of a proper plug connection, the risk of manipulation is also significantly reduced.

In an advantageous embodiment, the interlock circuit arrangement is configured such that in the event that the connection device is connected to the electrical component, an optical path is provided by the output device to the receiving device, at least partially through the connection device and at least partially through the electrical component runs. If, for example, the connection device is decoupled from the electrical component, the optical path is likewise interrupted in a corresponding manner and the receiving device no longer receives the optical signal in the predetermined manner.

In order to accomplish a suitable interruption of the optical path when removing the connection device from the electrical component, there are many different possibilities, of which two particularly advantageous embodiments are explained in more detail below.

According to an advantageous embodiment of the invention, the interlock circuit arrangement has a reflection element, wherein the interlock circuit arrangement is set up such that in the case that the connection device is connected to the electrical component, the optical path from the output device via the reflection element to the receiving device runs, and in particular in the event that the connection device is not connected to the electrical component, the receiving device does not receive the predetermined optical signal output from the output device.

For example, the reflection element can be integrated in the electrical component, for example in a plug of the electrical component, wherein furthermore only when the connection device, for example a socket corresponding to the plug of the component, is connected to the plug of the electrical component, the reflection element is positioned such that the optical signal from the output device is incident on the reflecting element and is reflected by the latter in such a direction that it impinges on the receiving device. If, for example, the connection device and the electrical component are separated from one another, then the optical signal which is output by the output device is no longer deflected by the reflection element and accordingly no longer impinges on the receiving device. In this case, the reflection element does not necessarily have to be integrated in a part of the electrical component, but could also be integrated in a reverse manner into a part of the connection device.

According to a further particularly advantageous embodiment of the invention, the output device is adapted to output the optical signal having a predetermined first polarization and the receiving device is adapted to receive only optical signals having a second predetermined polarization, wherein the interlock circuitry is an optical element for Changing a polarization has, in particular a retardation plate. In this case, the interlock circuit arrangement is furthermore set up in such a way that, in the event that the connection device is connected to the electrical component, the optical element is in the optical path and the receiving device has at least a predetermined part of the optical output by the output device with the first polarization Receives signal as an optical signal with the second polarization.

Thus, if the connection device is not connected to the electrical component, the optical signal with the first polarization output by the output device passes through the optical element for changing the polarization, whereby then the optical signal impinging on the receiving device can not be received by the receiving device. The optical element can for example be integrated in the optical path, for example again in a plug of the electrical component. Alternatively, the optical element can also be integrated in the connection device. In both cases, the circuit arrangement is designed such that the optical element is accordingly only in the optical path when the connection device is properly connected to the electrical component. This also advantageously makes it possible to provide a tamper-proof detection system, which is less prone to electromagnetic interference, for detecting an improper plug connection between the connection device and the electrical component.

Furthermore, the invention also relates to a HV electrical system for a motor vehicle with a circuit arrangement according to the invention or one of its embodiments. In addition, the invention also relates to a motor vehicle with such a HV electrical system. The advantages described for the circuit arrangement according to the invention and its embodiments apply in the same way for the HV electrical system according to the invention and the motor vehicle according to the invention.

The invention further relates to a method for detecting whether a connection device which can be coupled to an electrical component of a circuit arrangement is connected to the electrical component by means of an interlocking circuit arrangement having an evaluation device. In this case, a predetermined optical signal is output by an optical output device of the interlock circuit, which is received by a receiving device of the interlock circuit in a predetermined manner only when the terminal device is connected to the electrical component. In this case, the evaluation device detects that the connection device is disconnected from the electrical component when the optical signal is not received in the predetermined manner by the receiving device.

The advantages described for the circuit arrangement according to the invention and its embodiments also apply in the same way to the method according to the invention. In addition, the physical features mentioned in connection with the circuit arrangement according to the invention and its embodiments enable the development of the method according to the invention by further method steps.

Further advantages, features and details of the invention will become apparent from the following description of a preferred embodiment and from the drawing. The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or in the figures alone can be used not only in the respectively specified combination but also in other combinations or in isolation, without the scope of To leave invention.

Showing:

1 a schematic representation of a circuit arrangement with an interlock circuit arrangement according to an embodiment of the invention; and

2 a schematic representation of the circuit arrangement with an interlock circuit arrangement according to another embodiment of the invention.

1 shows a schematic representation of a circuit arrangement 10 with an interlock circuit arrangement 12 according to a first embodiment of the invention. The circuit arrangement has an electrical component for this purpose 14 on, such as a HV component of a HV electrical system, the HV plug 14a includes. Furthermore, the circuit arrangement 10 a connection device 16 , which may be integrated, for example, in a battery case of a HV battery of a motor vehicle, wherein the connecting device 16 with the HV component 14 can be coupled. For this purpose, the HV connector 14a the electrical component, for example, two HV contacts forming the respective ends of a HV-plus line and a HV-minus line 14b on, with two corresponding HV mating contacts 16a the connection device 16 , for example as part of a plug 14a corresponding socket can be formed, are electrically contacted.

In order to be able to detect whether the connection device 16 properly with the electrical component 14 is connected or not, is the interlock circuitry 12 intended. This comprises an optical output device which, for example, an optical transmitter 18 which generates an optical signal. In addition, the interlock circuitry includes 12 a receiving device which, for example, an optical receiver 20 can have. Is the connection device 16 properly with the electrical component 14 connected, so is an optical path 22 provided by the optical transmitter 18 to the optical receiver 20 runs and at least a part of the connection device 16 as well as a part of the HV plug 14a the electrical component 14 passes. This is still a reflection element 24 provided, for example, in the HV connector 14a can be integrated, and which in the properly mated condition that of the optical transmitter 18 emitted signal on the optical receiver 20 reflected. In order to additionally improve the conduction of the optical signal, the part of the optical path can 22 which passes through the connection device 16 runs, also through a light guide 27 be formed. transmitter 18 and receiver 20 can by a prolonged version of the light guide 27 also outside the connection device 16 For example, be integrated into a battery management system of a HV battery of a motor vehicle. Moreover, in 1 another seal 26 shown what the connection between the HV contacts 14b and the HV counter contacts 16a seals in the inserted state and protects against contamination and moisture, for example.

Furthermore, the interlock circuitry 12 an evaluation device 28 on which with the optical transmitter 18 and the optical receiver 20 is coupled. The evaluation device 28 For example, it may be integrated into a battery management system of a HV battery of a motor vehicle. The evaluation device 28 can also be designed to control of the optical transmitter 18 to accomplish the emission of the optical signal in a predetermined manner. Furthermore evaluates the evaluation 28 that from the optical receiver 20 received optical signal. Receives the optical receiver 20 For example, no optical signal, or for example an optical signal below a predetermined threshold, it is detected that the connection means 16 not properly in the electrical component 14 is connected and the plug contact is interrupted.

2 shows a schematic representation of the circuit arrangement 10 and the interlock circuitry 12 according to another embodiment invention. The circuit arrangement 10 here again has an electrical component 14 with a HV plug 14a and corresponding HV contacts 14b on, over which the electrical component 14 with a connection device 16 , which corresponding HV counter contacts 16a has, can be coupled. Here too, the interlock circuit arrangement again comprises an optical output device which comprises an optical transmitter 18 and an optical receiving device which comprises an optical receiver 20 having. Again, it is an optical path 22 provided in the event that the connection device 16 properly with the electrical component 14 connected by the optical transmitter 18 to the optical receiver 20 runs, in turn, in part, through the connection device 16 and partly through the HV connector 14a the electrical component 14 ,

The optical output device is now advantageously designed in this example to provide the optical signal with a predetermined first polarization. For this purpose, the optical output device, for example, a first polarizing filter 30 exhibit. In addition, the optical receiving device is adapted to receive only light of a predetermined second polarization, to which end the optical receiving device a second polarizing filter 32 can have. The respective polarization filters 30 and 32 can, as shown here, spatially separated from the optical transmitter 18 and the optical receiver 20 be arranged, or even be integrated into this. Becomes a transmitter 18 used, which generates linearly polarized light, the polarizing filter 30 omitted. Furthermore, in the optical path 22 , in particular within the HV connector 14a the electrical component 14 , an optical element, which in this example as a retardation plate 34 is formed, arranged. That of the optical transmitter 18 Thus emitted light or optical signal according to this embodiment, first passes through the first polarization filter 30 and will, for example, polarize at 90 °. When passing through the delay plate 34 in HV connector 14a For example, when the retardation plate is formed as a λ / 4 retardation plate, the polarization of the light corresponding to the retardation plate formation is rotated by 90 °. On the receiving side, the corresponding polarizing filter, which is permeable, for example, only to a polarization of 0 °, causes that through the retardation plate 34 in its polarization direction rotated signal the second polarizing filter 32 can go through and thus from the optical receiver 20 can be received. In contrast, is the connection device 16 not properly with the component 14 connected, so no signal from the optical receiver 20 received, because then the second polarizing filter 32 for that of the optical transmitter 18 emitted and corresponding to the first polarizing filter 30 polarized light is not permeable. Accordingly, here again the evaluation 28 detect in a particularly secure and reliable manner, whether the connection device 16 properly with the electrical component 14 connected or not. This variant of the optical interlock is particularly tamper-proof, since a fake optical signal can not be readily coupled from the outside.

The invention and its embodiments thus provide an interlock circuit arrangement, which achieves effective galvanic isolation and high coupling loss to electromagnetic interference through the use of optical elements in the interlock system. This is made possible in principle by the use of an optical transmitter which generates an optical signal, a light guide which transmits the optical signal, and an optical receiver which receives the optical signal. The optical interlock is advantageously constructed so that the optical waveguide or at least the optical path is interrupted by the transmitter to the receiver when the HV connector of the electrical component has not been properly inserted. As a result, as described, can provide a very effective protection against electromagnetic interference, as well as a very high protection against manipulation.

LIST OF REFERENCE NUMBERS

10

circuitry

12

Interlock circuit arrangement

14

Electrical component

14a

HV plug

14b

HV Contact

16

connecting device

16a

HV-counter contact

18

Optical transmitter

20

Optical receiver

22

Optical path

24

reflection element

26

poetry

27

optical fiber

28

evaluation

30

First polarization filter

32

Second polarization filter

34

retardation plate

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10210665 C1 [0003]

Claims (6)

Circuit arrangement ( 10 ) with an electrical component ( 14 ) and a connection device ( 16 ) connected to the electrical component ( 14 ) is electrically connectable, wherein the circuit arrangement ( 10 ) an interlock circuit arrangement ( 12 ), which has an evaluation device ( 28 ), which is designed to detect when the connection device ( 16 ) of the electrical component ( 14 ), characterized in that the interlock circuitry ( 10 ) an optical output device ( 18 ; 30 ) for outputting a predetermined optical signal and an optical receiving device ( 20 ; 32 ), which is designed in the event that the connection device ( 16 ) with the electrical component ( 14 ) connected by the optical output device ( 18 ; 30 ) received optical signal in a predetermined manner, wherein the evaluation device ( 28 ) is adapted to detect that the connection device ( 16 ) of the electrical component ( 14 ) is disconnected when the optical signal is not received in the predetermined manner from the receiving device ( 20 ; 32 ) Will be received. Circuit arrangement ( 10 ) according to claim 1, characterized in that the interlocking circuit arrangement ( 10 ) is arranged such that in the event that the connection device ( 16 ) with the component ( 14 ), an optical path ( 22 ) from the output device ( 18 ; 30 ) to the receiving device ( 20 ; 32 ) provided at least in part by the connection device ( 16 ) and at least partly by the component ( 14 ) runs. Circuit arrangement ( 10 ) according to claim 2, characterized in that the interlocking circuit arrangement ( 10 ) a reflection element ( 24 ), wherein the interlocking circuit arrangement ( 10 ) is set up such that in the event that the connection device ( 16 ) with the component ( 14 ), the optical path ( 22 ) from the output device ( 18 ; 30 ) via the reflection element ( 24 ) to the receiving device ( 20 ; 32 ), and in particular in the event that the connection device ( 16 ) not with the component ( 14 ), the receiving device ( 20 ; 32 ) that from the output device ( 18 ; 30 ) does not receive the output predetermined optical signal. Circuit arrangement ( 10 ) according to claim 2, characterized in that the output device ( 18 ; 30 ) is adapted to output the optical signal having a predetermined first polarization and the receiving device ( 20 ; 32 ) is adapted to receive only optical signals having a second predetermined polarization, the interlock circuitry ( 10 ) an optical element ( 34 ) for changing a polarization, in particular a retardation plate ( 34 ), wherein the interlocking circuitry ( 10 ) is arranged such that in the event that the connection device ( 16 ) with the component ( 14 ), the optical element ( 34 ) in the optical path ( 22 ) and the receiving device ( 20 ; 32 ) at least a predetermined part of the output device ( 18 ; 30 ) receives the first polarization output optical signal as the second polarization optical signal. HV electrical system for a motor vehicle with a circuit arrangement ( 10 ) according to any one of the preceding claims. Method for detecting whether one with a component ( 14 ) a circuit arrangement ( 10 ) coupleable connection device ( 16 ) with the component ( 14 ) is connected by means of an interlock circuit arrangement ( 10 ) with an evaluation device ( 28 ), characterized in that by an optical output device ( 18 ; 30 ) of the interlock circuit arrangement ( 10 ) a predetermined optical signal is output, which is only then from a receiving device ( 20 ; 32 ) of the interlock circuit arrangement ( 10 ) is received in a predetermined manner when the connection device ( 16 ) with the component ( 14 ), wherein the evaluation device ( 28 ) detects that the connection device ( 16 ) of the electrical component ( 14 ) is disconnected when the optical signal is not received in the predetermined manner from the receiving device ( 20 ; 32 ) Will be received.

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