DE3936988A1 - Motor vehicle diagnostic equipment - uses signal coupler already installed in vehicle with at least measuring and/or stimuli lead connected - Google Patents

Abstract

At least one measured value registering unit (22, 25) connectable to a signal source (13) to be tested and/or at least one stimuli unit (24, 26) connectable to a signal negative source (14) to be stimulated are assigned to the vehicle mounted coupler (10). The measured value registering unit is pref. in the form of a variable multi-measuring appts. The measuring lead (27) for the latter and/or the stimuli lead (29) for the stimuli unit can be disconnected. The connection between the coupler and the diagnostic system is established via at least are coupling lead (31). Gabramis signal separation, pref. by means of transformers or opto-couplers, is provided. ADVANTAGE - Increased range of application of coupler without significantly more cabling.

Description

State of the art

The invention relates to a device for a motor vehicle diagnosis according to the genus of the main claim. In a draft for ISO / DIS 9141 are the basis for an exchange of digital Information between components to be tested and diagnostic devices specified. A fixed installation is provided in the motor vehicle Diagnostic signal coupler, implemented as a multiple connector, the with the motor vehicle components to be tested or stimulated connected is. There is a cable on the moving part of the connector provided that out to the different levels formed diagnostic devices outside the motor vehicle leads.

The transmission of analog signals is not intended. In particular especially at low signal levels should at least occasionally a bad signal / interference signal ratio. For the testing of components that do not have the multiple plug-in connection according to ISO 9141 can be achieved, further cable connections Connections to diagnostic devices required.

The invention has for its object without any significant increase the use of the coupler to expand vehicle diagnostics.  

The task is characterized by the features specified in the main claim solved.

Advantages of the invention

The device according to the invention reduces the previously required union effort in the diagnosis of motor vehicles by eliminating Diagnostic devices carry leads that are required when in addition to the specified diagnostic options, which are available via the known diagnostic signal couplers can be made, further measurements on signal sources, connecting parts (cables, plugs) or Stimulations of signal sinks are required. With the assignment at least one measured value acquisition unit and / or at least one Stimulation unit to the diagnostic signal coupler is also the advantage increased resistance to interference radiation, because for example the preprocessing of measured values in close proximity to Signal source takes place. Longer lines in the the interference could be coupled are largely reduced.

Advantageous further developments and improvements in the main claim specified device result from the dependent claims.

A first advantageous embodiment of the invention direction concerns the formation of the measured value acquisition unit as controllable multimeter. With controllability it is possible Lich to specify different measured variables and measuring ranges. The Multimeter is for example on voltage, current, Resistance, temperature, frequency, pulse duration or for example Switchable duty cycle measurement. Tax is also advantageous Availability of the stimulation unit, for example between digital and analog signals to be output can be switched, the time Liche course of the signals is arbitrary.  

A particularly advantageous embodiment of the invention direction concerns the between the measured value acquisition unit and the Signal source or between the signal sink and the stimulus Unit provided connecting line, which is designed to be removable. With this measure, the additional measuring or stimulation lines are only present during the diagnosis in the motor vehicle.

A further embodiment provides for the formation of the diagnostic signal coupler as a plug connection in front, with a stationary one, in force Vehicle arranged and a freely movable part in the front preferably arranged the measured value acquisition and the stimulation unit are.

An advantageous development of the device according to the invention concerns the between the diagnostic signal coupler and the diagnostic gene advise connection. In a first embodiment a cable connection is provided, preferably with Trans formers or optocouplers galvanic isolation of the over carried signals is provided. In another embodiment high-frequency signal transmission is provided. Especially before The design of the transmission as light waves is a partial feature conductor path that is particularly resistant to interference.

Another advantageous development of the invention Direction sees the signal summary within the diagnosis signal coupler. For the signals from the coupler to the diagnosis device to be transmitted is a multiplexer and opposed to it set direction provided a demultiplexer. With this measure simplifies the signal transmission between the coupler and Diagnostic equipment. If a cable connection is provided, redu the effort is for example on a serial Two-wire interface cable.  

Further details and advantageous refinements and ver Improvements result from further subclaims in connection with the following description and the drawing.

The figure shows a diagnostic signal coupler 10 , which is arranged in a motor vehicle, not shown. The coupler 10 is realized for example as a plug-in connection which contains a first part installed in the motor vehicle, for example a socket 10 and a plug 12 . At least one signal source 13 , at least one signal sink 14 and preferably a switching unit 15 are present in the motor vehicle. The signal source 13 , the signal sink 14 and the switching unit 15 are connected via lines 16, 17, 18 , which initially lead to the socket 11 , with a signal processing arrangement 19 provided in the plug 12 . The signal flow in lines 16, 17, 18 is fixed by the arrows. Switching unit 15, which can be controlled via line 17, can establish or separate connections between signal source 13 and signal sink 14 via lines 20 .

From the signal source 13 , a measuring line 21 leads via the socket 11 to a measured value acquisition unit 22 which is connected to the signal processing arrangement 19 . To the signal sink 14 leads a stimulus line 23 which can be connected via the socket 11 to a stimulation unit 24 connected to the signal processing arrangement 19 .

Furthermore, a further measured value acquisition unit 25 and a stimulation unit 26 are arranged in the plug 12 , each of which is likewise connected to the signal processing arrangement 19 . A free measuring line 27 can be connected to the further measured value acquisition unit 25 via a measuring socket 28 arranged in the plug 12 , and a free stimulation line can be connected to the further stimulation unit 26 via a stimulation socket likewise arranged in the plug 12 . The signal flow on the measuring lines 21, 27 and on the stimulus lines 23, 29 is defined by the arrows. The signal processing arrangement 19 has a coupling line 31 , via which signals can be transmitted from and to the signal processing arrangement 19 .

The device for vehicle diagnosis according to the invention operates as follows:
Via the coupler 10 , measured value acquisition and feeding of stimulus signals into different components of the motor vehicle are possible with a plug-in connection that is standardized or freely specifiable in ISO / DIS 9141. The coupling line 31 is connected, for example, to a motor vehicle diagnostic device which allows the detection and evaluation of a wide variety of measurement signals. Furthermore, the device can generate different stimulus signals that can be used in the motor vehicle, for example, for testing actuators, signal evaluation circuits and control devices. The coupling line 31 can be implemented in a variety of ways. In a simple exemplary embodiment, a plurality of lines are combined to form a cable in accordance with the number of measurement and stimulation lines. The coupling line 31 is preferably designed as a two-wire line, via which the signals are transmitted serially in both directions. In a further preferred embodiment, the coupling line 31 is implemented as an optical waveguide, as a result of which the interference with signal transmission drops to negligibly low values. This is particularly important when used in motor vehicle workshops, where a relatively high interference signal level is generally to be expected. In a further embodiment, the coupling line 31 is replaced by a radio connection.

In the event that a temporal Signalzu summary is provided in the coupling line 31 , the connector 12 contains the signal processing arrangement 19th If necessary, a standardized interface circuit is provided. A separation of the received signals is called a demultiplex and a summary of the signals to be delivered is called a multiplex.

In addition to the arrangement 19 , at least one measurement value acquisition unit 22, 25 and / or at least one stimulation unit 24, 26 are contained in the connector 12 . The signal lines 16, 17, 18, 21, 23 are connected to the socket 11 to which the plug 12 can be connected.

The line 16 leads to the signal source 13 , which is, for example, a sensor, an electronic arrangement such as a control device or another part which emits a signal which is to be examined. If the signal source 13 is designed for this purpose, a signal transmission to the source 13 can also be provided via the line 16 , which, for example, enables a switching of measuring points.

For example, stimulus signals can be transmitted to the signal sink 14 via the line 18 . Actuators or electronic arrangements are provided as signal sinks, the behavior of which is to be tested on the basis of predeterminable signals. If the signal sink 14 is prepared, a signal can also be transmitted via the line 18 away from the sink in order, for example, to be able to query a status signal or a feedback signal.

Furthermore, the switchover unit 15 can be provided in the motor vehicle and can be controlled via the line 17 . With the switchover unit 15 , for example, signal paths between sensors and the associated control units can be separated and the externally fed stimuli signals can be applied to the control unit. Any meaningful connections can be opened or closed. In an advantageous further development, the switching unit 15 is only provided during the diagnostic process in the motor vehicle.

The signals transmitted via lines 16, 17, 18 preferably have a signal level which is insensitive to interference. The arrangement of at least one measured value acquisition unit 22, 25 in the connector 12 is therefore advantageous for the measurement at sources 13 with a low level. This allows a signal preprocessing in the vicinity of the measured variable to be detected. In addition to reducing the interference, the required cabling effort is also reduced, in particular if the measured value acquisition unit 22, 25 is designed as a controllable multiple measuring instrument that processes various measurement variables such as voltage, current, resistance, temperature, frequency, pulse duration, Duty cycle etc. allowed. In a first embodiment, the measurement value acquisition unit 22 can be connected to the measurement line 21 which is permanently installed in the motor vehicle and which reaches certain, defined measurement points in a signal source. In a further embodiment, the measured value acquisition unit 25 can be connected to a free measuring line 27 . The free measuring line 27 can be optionally connected to all accessible measuring points. In a further embodiment, at least two measured value acquisition units 22 and 25 are provided, one being connectable to a hard-wired measurement line and one to a free measurement line.

The same configurations can also be provided in the arrangement of the stimulation unit 24, 26 . The stimulation unit 24 is connectable, for example, to the hard-wired stimulation line 23 . Alternatively, the stimulation unit 26 can be connected to the free stimulus line 29 , which allows random access to any test point in the motor vehicle. In a further embodiment, at least two stimulation units 24 and 26 are provided, one with the hard-wired line 23 and one with the free stimulation line 29 being connectable.

An advantageous development relates to the design of the coupler 10 , in which the socket 11 and the plug 12 are not formed as a plug connection, but as a non-contact connection. The signal transmission between the part arranged in the motor vehicle and the movable part is possible, for example, as an electromagnetic near-field coupling. Signal coupling by means of optocouplers is particularly advantageous. The advantage of be contactless signal transmission in the coupler 10 lies in the elimination of contamination problems that could occur with connectors.

A galvanic separation of the measurement or stimulus signals is also possible in the connector 12 either before or after the signal processing arrangement 19 , provided that a wired signal transmission from and to the motor vehicle diagnostic system via the coupling line 31 is seen before. Signal separation can be implemented using opto-couplers or transformers.

In addition to the lines 16, 17, 18, 21, 23 , further permanently installed lines can be provided. In particular, several measuring and / or stimulation lines 21, 23, 27, 29 can be present. Additional measured value acquisition and stimulation units 22, 24, 25, 26 are not required if the existing units have a multiplexing and demultiplexing output.

The measuring socket 28 and / or the stimulus socket 30 can be arranged in the socket 11 and, for example, be integrated in the contactless signal transmission. However, one or two coupling points are saved if the two sockets 28, 30 are accommodated in the movable part, the plug 12 , of the coupler 10 , into which the measuring lines 27, 29 can be inserted if necessary.

An advantageous development relates to the design of the measured value acquisition unit 22, 25 and / or stimulation unit 24, 26 as plug-in modules within the plug 12 . With this measure, special measurement or stimulus problems are overcome by a selection of suitable module circuits that are specially adapted to the application.

Claims (14)

1. Device for motor vehicle diagnosis, with at least one first part of a diagnostic signal coupler installed in the motor vehicle, to which at least one measuring and / or stimulus line is connected, characterized in that the coupler ( 10 ) can be connected to at least one signal source ( 13 ) to be tested Measured value acquisition unit ( 22 , 25 ) and / or at least one stimulation unit ( 24 , 26 ) which can be connected to a stimulating signal sink ( 14 ) is assigned. 2. Device according to claim 1, characterized in that the measured value acquisition unit ( 22 , 25 ) is designed as a controllable multimeter. 3. Apparatus according to claim 1 or 2, characterized in that the measuring line ( 27 ) leading to the measured value acquisition unit ( 25 ) and / or the stimulation line ( 29 ) leading to the stimulation unit ( 26 ) is designed to be removable. 4. Device according to one of claims 1 to 3, characterized in that the connection between the coupler ( 10 ) and a motor vehicle diagnostic system can be established via at least one coupling line ( 31 ). 5. The device according to claim 4, characterized in that a galvanic signal separation, preferably using transformers or is provided with optocouplers. 6. Device according to one of claims 1 to 3, characterized in that the signal transmission between the coupler ( 10 ) and the motor vehicle diagnostic system takes place via a radio frequency radio link. 7. Device according to one of claims 1 to 3, characterized in that the connection between the coupler ( 10 ) and the motor vehicle diagnostic system takes place via a coupling line ( 31 ) designed as an optical waveguide. 8. Device according to one of the preceding claims, characterized in that the coupler ( 10 ) contains a signal processing arrangement ( 19 ) with multiplexer and demultiplexer. 9. Device according to one of the preceding claims, characterized in that the coupler ( 10 ) is designed as a plug connection with a built-in socket in the motor vehicle socket ( 11 ) and a plug ( 12 ). 10. The device according to claim 9, characterized in that the measured value acquisition unit ( 22 , 25 ) and / or the stimulation unit ( 24 , 26 ) is arranged in the plug ( 12 ). 11. Device according to one of claims 1 to 8, characterized in that the coupler ( 10 ) provides a contactless signal transmission between the first part ( 11 ) and the plug ( 12 ). 12. Device according to one of the preceding claims, characterized in that the measured value acquisition unit ( 22 ) with a measuring line ( 21 ) and that the stimulation unit ( 24 ) with a stimulus line ( 23 ) can be connected, the measuring and the stimulation line ( 21 , 23 ) are permanently installed in the motor vehicle. 13. Device according to one of claims 1 to 11, characterized in that the measured value acquisition unit ( 25 ) with a free measuring line ( 27 ) and stimulation unit ( 26 ) with a free stimulus line ( 29 ) can be connected. 14. The apparatus according to claim 13, characterized in that the measurement and / or stimulus line ( 27 , 29 ) to a measurement and stimuli socket ( 28 , 30 ) can be connected, the measurement and stimulation socket ( 28 , 30 ) in Plugs ( 12 ) are arranged.