DE10226782A1 - Circuit for testing electrical device in vehicle, carries out test on electrical device by measuring electrical parameter in circuit supplying device, has circuit unit for activating measurement device - Google Patents

Abstract

The circuit arrangement carries out a test on an electrical device by measuring an electrical parameter in the circuit supplying the electrical device and has a circuit unit for activating at least one measurement device. The circuit unit has an interface and a circuit device that responds via the interface. The interface is designed for connection of an electronic test system integrated into the vehicle or an external electronic test system. The circuit arrangement (1) carries out a test on an electrical device (16-18) by measuring an electrical parameter in the circuit supplying the electrical device and has a circuit unit (7,19,15) for activating at least one measurement device (2). The circuit unit has an interface (7) and a circuit device (19,15) that responds via the interface. The interface is designed for connection of an electronic test system integrated into the vehicle or an external electronic test system (8). Independent claims are also included for the following: (a) a method of testing the functionality of at least one electrical device in a circuit connected to a vehicle battery; (b) the use of a current measurement system of at least one controller for testing the functionality of at least one electrical device in a circuit connected to a vehicle battery.

Description

The invention relates to a Circuit arrangement for testing of installed in a motor vehicle and via one of a vehicle battery powered circuit electrically powered devices, being the test of a measurement an electrical quantity in the Circuit is done.

The invention further relates on a procedure to review the operability of electrical equipment of a motor vehicle via a Current measurement. The invention further relates to a use a current measurement system of a control unit of a motor vehicle for checking the operability an electrical device of the motor vehicle.

From the DE 26 02 702 A1 A circuit arrangement for joint testing of several electrical circuits in motor vehicles is known which contain current consumers, in particular incandescent lamps, each with its one connection directly to a ground pole and with its other connections on the one hand above them, respectively assigned switches on a switchable pole of an electrical system and on the other hand rest on the base of a transistor assigned to them, the collector-emitter path of which is connected to a display device. The collector-emitter paths of the transistors form a transistor series connection by connecting a collector to the emitter of the subsequent transistor, the emitter at the beginning of the transistor series connection with the switchable pole and the collector at the end of the transistor series connection with the display device is connected in the form of a transistor and a control lamp.

Furthermore, in motor vehicles so-called electronic verification systems (Electronic Check Out System, ECOS) is used. This essentially does an ammeter with the battery and the circuits from it electrical devices of a motor vehicle connected. Over a A current measurement made centrally near the battery can then provide information about the operability different electrical devices are made. This is disadvantageous in that for checking the vehicle electronics additional central electrical systems must be provided.

It is an object of the invention to review electrically operated devices of a motor vehicle also via decentralized to enable electrical components of the vehicle electronics.

According to the invention the object is achieved in that the circuit arrangement for activating at least one measuring device trained circuit unit. The method according to the invention solves the Task in that the current measurement by connecting a Current measuring system in a battery circuit of a motor vehicle integrated control unit he follows.

The task is also through the use of a current measuring system of at least one control device for checking the operability an electrical with a battery circuit of a motor vehicle connected electrical device solved, the current measuring system via a Circuit unit directly to the battery circuit outside of the control unit connected becomes.

The invention is advantageous Way of installing additional, checking electrical Equipment components used avoided.

In one embodiment of the circuit arrangement according to the invention the circuit unit comprises an interface and one via the interface responsive circuit device. The interface also be designed to connect an electronic verification system. The verification system to be connected can be integrated in the vehicle. Preferably, however, an external verification system can also be used be connected. The measurement can then advantageously be carried out using a outside vehicle inspection system precise controlled and / or evaluated. It can also be an integrated and an external verification device together be connected.

In another embodiment the circuit arrangement according to the invention the at least one measuring device is designed as a current measuring system, that integrated into the battery circuit of the motor vehicle control unit assigned. The circuit device can be a relay and a Have switches for activating the current measuring system. there the current measuring system and the circuit device can preferably to a control unit be connected.

In a particularly preferred embodiment, the current measuring system and the circuit device are integrated in one control unit. It is possible to deactivate the control unit at least with regard to its function via the circuit unit. Accordingly, when checking an electrical device, interference caused by a current flowing in a power section of the control device can be avoided. This is possible because the checking of electrical devices according to the invention is preferably carried out at the end of the production process nes motor vehicle takes place as a so-called "end of line process".

An evaluation is preferred the one of each checked electrical Established measured quantities of trained Processor available. Conveniently, a memory element is provided in which the target measured variables of the electrical to be checked Facilities are deposited. In another embodiment The invention is the processor for performing a comparison of stored Target measurands of electrical to be checked Devices and the measured variables obtained with the circuit arrangement via the electrical Facilities trained. After a further development of the invention there is a signaling device which, if the respective measurand and the Setpoint is triggered.

In one embodiment of the invention is the electronic verification system to evaluate the electrical device checked by the respective obtained measured variables trained. It goes without saying that in the context of the invention of the electronic verification system from control commands for measuring and sending certain measured variables to the Current measurement system are sent so as to be outside the circuitry initiate evaluation.

Those are preferably used as the control device ECUs of a motor vehicle that uses its own current measurement system feature or to which a control unit is assigned. So can control unit an auxiliary power steering and / or an automatic braking force control unit be used. It is also conceivable to control one Anti-lock braking system and / or an anti-slip control to use. The control unit can each during regarding the current measurement at least the one to be executed Function can be switched off.

It is understood that the above not only mentioned features and to be explained below in the specified combination, but also in others Combinations can be used. The scope of the present invention is only by claims Are defined.

• 1 eine schematische Darstellung einer ersten Ausführungsform der erfindungsgemäßen Schaltungsanordnung und
• 2 eine entsprechende Darstellung einer zweiten Ausführungsform der Erfindung.

The invention is explained in more detail below on the basis of several exemplary embodiments with reference to the associated drawings. The same parts are provided with the same reference numerals in the drawings. Show it:

• 1 a schematic representation of a first embodiment of the circuit arrangement according to the invention and
• 2 a corresponding representation of a second embodiment of the invention.

To 1 a circuit arrangement identified overall by 1 has a measuring device designed as a current measuring system 2 on. The current measurement system 2 is in a control unit 3 an auxiliary power steering (not shown) (Electro Hydraulic Power Steering) of a motor vehicle integrated. The control unit 3 contains a power section 4 as well as one with a memory 5 connected processor 6 , The memory 5 is designed in the form of an electrically programmable and electrically erasable read-only memory (EEPROM). The circuit arrangement according to the invention 1 is through an interface 7 with an electronic verification system 8th connectable. This can be done with the processor 6 connected interface 7 be designed as a diagnostic interface. Via a connection terminal 8th is the control unit 3 by means of a connecting line 9 with a vehicle battery 10 connectable. A switch that can be switched via the ignition of the motor of the motor vehicle 11 establishes the connection with a positive pole 10a the battery 10 ago.

With the current measurement system 2 will have a shunt resistor 2 , Shunt resistance, a measurement of an electrical current is carried out. About the processor 6 is a measuring tap of the shunt resistance 2 inside the control unit 3 possible. The shunt resistor 2 is in the circuit arrangement according to the invention 1 by means of a connection terminal 12 line created 14 with the positive pole 10a the battery 10 connected. In the operating position of the control unit 3 is the shunt resistance 2 via the power section 4 with a negative pole 10b the battery 10 connected.

Via a clamp 13 and a switch designed as a changeover contact 15 be in one in the 1 shown position, are each with fuses 16a . 17a . 18a provided and connected in parallel electrical devices 16 . 17 . 18 supplied with the battery voltage. The electrical devices 16 . 17 . 18 are, for example, components of the lighting system of the motor vehicle in the form of flashing lights 16 . 17 and headlights 18 , The height of the in working order via the turn signal lights 16 . 17 and the headlights 18 flowing currents is different.

Inside the control unit 3 is between the connecting cable 9 and the processor 6 a relay 19 connected. Via the relay 19 can the changeover contact 15 controlled and switched. Via a switching pulse from the relay 19 becomes the changeover contact 15 from the in the 1 shown in one of the 2 corresponding position switched. The shunt resistance is according to the invention 2 then with one of the electrical devices 16 . 17 . 18 to check them in series with the battery 10 connected. About the processor 6 according to the invention is preferably via an interface 7 received impulse the power section 4 of the control unit 3 off.

Via a circuit unit as a combination of the interface 7 , the relay 19 and with that switched changeover contact 15 is a testing of an electrical device according to the invention 16 . 17 . 18 over the current flow symbolized by the arrows a, b. The current measurement system 2 can preferably with the turn signal lights 16 . 17 or the headlights 18 be connected for current measurement. If the so-called target measuring currents are determined via the current measurement, proof of the full functionality of the direction indicators is provided 16 . 17 and headlights 18 given.

The target measuring currents are for the direction indicators 16 . 17 for example 2A and for the headlights 18 for example 15A. With the processor 6 is a comparison of the current over the respective electrical devices 16 . 17 . 18 measured currents with in the memory 5 stored target measuring currents of the electrical equipment checked in each case 16 . 17 . 18 feasible. If there is a deviation between the two currents, an error log can be created and / or via a signal device 20 , for example in the form of a warning light on the instrument panel in the interior of the motor vehicle, a driver of the motor vehicle malfunctions of the respective electrical device 16 . 17 . 18 are displayed.

As in 2 the current measuring system can be shown 2 also from the outside to the processor 6 of the control unit 3 be connected. The circuit device is also made of relays 19 and changeover contact 15 via connection 21 to the processor 6 connected. The current measurement system 2 is over a clamp 22 of the control unit 3 corresponding 2 at their power section 4 placed. The relay 19 is about the junction 23 and the line 9 with the battery 10 connected. One via the current measurement system 2 performed verification of the functionality of an electrical device 16 . 17 . 18 of the motor vehicle can via the processor 6 and the memory 5 to be controlled.

However, it is also possible via the interface 7 external control, for example via the electronic inspection system 8th perform. This is then via an input of the processor 6 a command sequence with a specification of the electrical device to be checked 16 to the relay 19 and the changeover contact 15 given. In the command sequence, the processor or the circuit unit 7 . 19 . 15 also a transmission format for transferring the measured currents to the electronic verification system 8th to hand over. An evaluation including a comparison of the measured variables with stored reference variables then takes place outside the control unit 3 , for example in the verification system B.

The circuit arrangement 1 with the interface 7 , the circuit device 19 . 15 , the processor 6 as well as the store 5 can also be implemented in software in both embodiments.

1

circuitry

2

Shunt resistor

3

control unit

4

power unit

5

Storage

6

processor

7

interface

8th

electronic verification system

9

connecting cable

10

battery

11

switch

12

clamp

13

clamp

14

management

15

Changeover contact

16

flashing light

16a

fuse

17

flashing light

17a

fuse

18

headlights

18a

fuse

19

relay

20

signaling device

21

connection

22

clamp

23

junction

Claims (21)

Circuit arrangement for testing installed in a motor vehicle and via a by a vehicle battery ( 10 ) powered circuit electrically powered devices ( 16 . 17 . 18 ), the test being carried out by measuring an electrical quantity in the circuit, characterized in that the circuit arrangement ( 1 ) one for activating at least one measuring device ( 2 ) trained circuit unit ( 7 . 19 . 15 ) having. Circuit arrangement according to claim 1, characterized in that the circuit unit ( 7 . 19 . 15 ) an interface ( 7 ) and one via the interface ( 7 ) responsive circuit device ( 19 . 15 ) includes. Circuit arrangement according to claim 1 or 2, characterized in that the interface ( 7 ) for connecting an integrated electronic inspection system and / or an external electronic inspection system ( 8th ) is trained. Circuit arrangement according to one of claims 1 to 3, characterized in that the at least one measuring device ( 2 ) is designed as a current measuring system that a control unit integrated in the circuit ( 3 ) assigned. Circuit arrangement according to claim 4, characterized in that the current measuring system ( 2 ) and the circuit device ( 19 . 15 ) in a control unit ( 3 ) are integrated. Circuit arrangement according to one of claims 1 to 5, characterized in that the circuit unit ( 7 . 19 . 15 ) to deactivate at least one function of the control unit ( 3 ) is trained. Circuit arrangement according to one of claims 1 to 6, characterized in that the circuit device comprises a relay ( 19 ) and a switch ( 15 ) includes. Circuit arrangement according to one of claims 1 to 7, characterized in that a for evaluating the electrical device checked by the respective ( 16 . 17 . 18 ) Measured variables obtained by trained processor ( 6 ) is available. Circuit arrangement according to one of claims 1 to 8, characterized in that a memory ( 5 ) is provided, in the target measurands of the electrical devices to be checked ( 16 . 17 . 18 ) are stored. Circuit arrangement according to claim 8 or 9, characterized in that the processor ( 6 ) to carry out a comparison of stored target measurement quantities of the electrical devices to be checked ( 16 . 17 . 18 ) and the one with the circuit arrangement ( 1 ) Measured variables obtained via the electrical devices ( 16 . 17 . 18 ) is trained. Circuit arrangement according to claim 10, characterized in that a signal device ( 20 ) is present, which is triggered when the measured variable and the target measured variable do not match. Circuit arrangement according to one of claims 1 to 7, characterized in that the electronic checking system ( 8th ) to evaluate the electrical equipment checked by the respective ( 16 . 17 . 18 ) measured variables obtained is formed. Circuit arrangement according to one of claims 4 to 12, characterized in that the control device ( 3 ) is a power steering control unit. Circuit arrangement according to one of claims 4 to 12, characterized in that the control device ( 3 ) is a control unit of an automatic braking force control unit. Circuit arrangement according to one of claims 4 to 12, characterized in that the control device ( 3 ) is a control unit of an anti-lock braking system. Circuit arrangement according to one of claims 1 to 12, characterized in that the at least one measuring device ( 6 ) Is part of an anti-slip regulation. Circuit arrangement according to one of claims 1 to 16, characterized in that the circuit arrangement is designed as computer software. Method for checking the functionality of at least one in a vehicle battery ( 10 ) connected circuit provided electrical device ( 16 . 17 . 18 ) of a motor vehicle via a current measurement, characterized in that the current measurement via a connection of a control unit ( 3 ) of the current measurement system assigned to the motor vehicle ( 2 ) to the at least one electrical device ( 16 . 17 . 18 ) he follows. Method according to claim 18, characterized in that the control device ( 3 ) is deactivated at least with regard to its function during the current measurement. Using a current measuring system ( 2 ) at least one control unit ( 3 ) to check the functionality of an electrical device connected to a battery circuit of a motor vehicle ( 16 . 17 . 18 ), the current measuring system ( 2 ) via a circuit unit ( 7 . 19 . 15 ) is connected to the battery circuit. Use according to claim 20, characterized in that the control device ( 3 ) when checking the at least one electrical device ( 16 . 17 . 18 ) is partially switched off.