DE4103310A1 - DEVICE FOR DETECTING SIGNALS - Google Patents

Description

State of the art

The invention is based on a device for detecting Signals according to the genus of the main claim. From the GB-PS 21 72 115 is a device for the diagnosis of distributorless Ignition systems known. There are diodes on the ignition coils of the ignition system connected, which are the signals occurring in the ignition coils decoupled from each other to a signal merging point conduct. The merged signals are evaluated circuit edited. A voltage measurement on the signal together The management body is always subject to an error that is caused by the Is caused by diodes. At high speeds with the ignition system operated internal combustion engine can the closing phase of an ignition circuit covered by the ignition process of another ignition circuit will. The analysis of the signal that can be picked up at an ignition coil as The function of time is therefore not in all operating situations possible.

The invention has for its object a device for it grasp signals in such a way that a possible complete analysis of the signals is possible.  

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

Advantages of the invention

The measure according to the invention that additional funds can be provided to select one of the signals has the advantage that the same timely merged and individual signals can be analyzed. To Additional taps at the signal sources are not necessary. The Device according to the invention enables with little additional effort a comprehensive analysis of those occurring at the signal sources Signals.

Advantageous further developments and improvements of the fiction moderate device result from subclaims.

A manual configuration provides a cost-effective implementation Actuation of the additional selection means before. An operator selects the signal to be evaluated individually.

Another advantageous embodiment provides the actuation of the Selection means of a signal processing arrangement before that Evaluation of the merged and / or the individual signals before is there. The selection of the individual signal can therefore be made in Ab depending on the analysis to be carried out automatically will. A targeted selection of the individual signal from a Be The operator is also possible via the signal processing arrangement.  

A particularly advantageous embodiment provides that the means a first and second group of Ent for merging the signals Coupling means, especially diodes, contain. With the first It is then possible for the group to combine those signals that have positive potential with respect to a reference potential, while the second group the signals with negative potential brings together.

As input lines of the device according to the invention are a multiple, unshielded cables are provided, which are opposite shielded cables result in cost advantages. Here is a coupling between the input lines due to stray capacities shut down. This capacitive coupling would be particularly on a pretend not connected input line a signal that is coupled from another input line. An advantage adherent development of the inventive device therefore sees an input circuit with capacitors before the over-coupled Significantly reduced signals. The capacitors form with the Stray capacitance a capacitive voltage divider that the signal amplitudes reduced according to the division ratio.

The device according to the invention is particularly suitable for Ver Application to diagnostic devices for motor vehicles. In this An Several signal sources are often used at the same time care, the signals of which are sometimes temporally linked because the different facilities in the motor vehicle partly against influence each other. In particular, the invention Direction for use in diagnosing ignition systems with more suitable as an ignition coil. The merged signal enables For example, the determination of the speed and the concentricity of the Internal combustion engine while evaluating the individual signal at the same time a precise voltage measurement or an evaluation of temporal relationships, for example determining the closing time of an ignition switching element, allowed.

Advantageous further developments and improvements of the fiction Appropriate device result from the following description.

drawing

A device according to the invention for detecting signals is shown in shown in the figure.

In the figure, an ignition system 10 is shown, which is separated by dashed lines from a device 11 according to the invention for detecting signals. The apparatus 11 is hereinafter referred to as Diagnosevor direction 11, respectively. The ignition system 10 contains two ignition coils 12 , 13 , each having first primary connections 14 , 15 , second primary connections 16 , 17 , first secondary connections 18 , 19 and second secondary connections 20 , 21 . The two secondary connections 18 , 20 of the first ignition coil 12 are each connected to spark plugs 22 , 23 , which are connected to a ground 24 . The first secondary connection 19 of the second ignition coil 13 is connected to the first primary connection 15 , while the second secondary connection 21 is connected to a further spark plug 25 , which is also connected to ground 24 . The second primary connections 16 , 17 are guided to an ignition switch 26 , which creates a connection to an energy source 27 , which is connected to ground 24 . The first primary connections 14 , 15 of the ignition coil 12 , 13 are each connected to ignition switching elements 28 , 29 , which are arranged in an ignition switching device 30 .

On the first primary connections 14 , 15 of the ignition coils 12 , 13 , taps 31 , 32 are provided, to which lines are connected which lead to inputs 33 , 34 of the diagnostic device 11 . At the inputs 33 , 34 , a first group of decoupling means 35 , 36 is connected, which lead to a first signal merging point 37 . Furthermore, a second group of decoupling means 38 , 39 is connected to the inputs 33 , 34 , which lead to a second signal combining point 40 . The inputs 33 , 34 are also connected to selection means 41 which apply one of the input signals to an output 42 . The output 42 is also the second input of a signal processing arrangement 43 , which contains a second input 44 , which is connected to switching means 45 , which connect the second input 44 to either the first or second signal combining point 37 , 40 . The selection means 41 have an input 46 , via which the selection of a signal takes place. For selection, an output 47 of the signal processing arrangement 43 and a manual input 48 are seen before.

The inputs 33 , 34 are also each connected to capacitors 49 , 50 , which are connected to ground 24 . The capacitors 49 , 50 act together with a capacitor 51 which is on input lines between the inputs 33 , 34 . The capacitor 51 is shown in dashed lines in the figure because it occurs as stray capacitance between input lines. As a discrete construction element, the capacitor 51 is not present.

The device according to the invention for detecting signals works as follows:
The ignition system 10 is provided, for example, for operating an internal combustion engine (not shown in the figure). The ignition system 10 contains more than one ignition coil 12 , 13 . For example, two spark plugs 22 , 23 , which emit a spark at the same time, are connected to the first ignition coil 12 . For example, only one spark plug 25 is connected to the second ignition coil 13 .

The first primary connections 14 , 15 of the ignition coils 12 , 13 can be switched to ground 24 using the ignition switching elements 28 , 29 . The ignition system 10 is not limited to any particular type. It can be a thyristor, transistor or high-frequency ignition system.

The first primary connections 14 , 15 of the ignition coils 12 , 13 are provided as signal sources, at which signals are to be recorded, and have taps 31 , 32 for connecting the diagnostic device 11 . Instead of the two inputs 33 , 34 of the diagnostic device 11 shown in the figure, any number of further inputs can be provided. The first group of decoupling means 35 , 36 , which are preferably implemented as diodes, bring together the signals at the inputs 33 , 34 at the first signal combining point 37 , while the second group 38 , 39 of decoupling means 38 , 39 , also preferably are realized as diodes, the signals at the second signal merging point 40 merge. The first diode group 35 , 36 merges the input signals 33 , 34 , the positive and the second diode group 38 , 39 merges the input signals 33 , 34 , which are negative with respect to a reference potential. The reference potential itself and the required working resistances of the diodes 35 , 36 ; 38 , 39 are not shown in the figure for reasons of simplification. The switching means 45 lead either to the first or to the second signal merging point 37 , 40 merged signal to the second input 44 of the signal processing arrangement 43 to. The switching means 45 can be actuated either manually or electrically. For example, it could be controlled as a function of the potential at the first or second signal combination point 37 , 40 . Furthermore, it is possible to control the first switching means 45 from the signal processing arrangement 43 .

The signal processing arrangement 43 carries out a signal evaluation as a function of a signal which is composed of the signals at the inputs 33 , 34 .

Furthermore, the signals at the inputs 33 , 34 are fed to the selection means 41 , which select one from the input signals and make them available at the output 42 . The selection means 41 are referred to as multiplexers, in particular as analog signal multiplexers. Depending on a control signal at input 46 of multiplexer 41 , one of the input signals is switched through to output 42 . The selection can, for example, be made directly by an operator via the manual input 48 . In addition or independently of this, the input signal selection in the multiplexer 41 can also be carried out by the signal processing arrangement 43 via a control signal at the output 47 . The selection made by the arrangement 43 can be provided, for example, as a function of diagnostic routines that have ended. Furthermore, the signal processing arrangement 43 can contain a further manual input, not shown in the figure, for the targeted search for a signal. The signal at the output 42 , which speaks exactly one input signal, can be analyzed in the signal processing arrangement to which it is supplied as the first input signal, simultaneously with the combined signal at the second input 44 .

The device according to the invention for acquiring signals is included Benefit to be used wherever there is more than one signal source signals to be tapped at the same time both merged as well as to be analyzed individually. In particular, the Device according to the invention for use in a diagnosis for Suitable for motor vehicles. In this application there are often several Signals based on the existing in the motor vehicles directions are coupled with each other.  

The device according to the invention is particularly suitable for use in the diagnosis of ignition systems 10 with more than one ignition coil. In this application, for example, the number of revolutions, the concentricity or the totality of the ignition processes of the internal combustion engine are shown from the signal combination points 37 , 40 present signals. With the first diode group 35, 36, in particular the signals are to be evaluated, which occur during the opening phase of the ignition switching elements 28 29, while the merged with the second diode group 38, 39 signals allow a diagnosis during the closing phase of the elements 28, 29th With certain diagnostic routines, the analysis of individual signals at the inputs 33 , 34 is simultaneously desirable or necessary. For example, a voltage measurement is provided on the first or second tap 31 , 32 . With this voltage measurement, for example, the residual voltage can be measured during the closing phase of the elements 28 , 29 . The signals at the A passages 33, 34 are from multiplexer 41 at its unadulterated gear From forwarded 42nd Additional connections to the signal sources are not required. In addition to a precise voltage measurement, a temporal analysis of the signals at the inputs 33 , 34 is also possible. In the example of the diagnosis of ignition systems, the closing phases of the elements 28 , 29 can each be evaluated separately. Such an evaluation would be possible with the signals at the signal merging points 37 , 40 not in all operating states because at high speeds an overlap of the closing phases of the elements 28 , 29 can occur, which prevents a precise evaluation.

The lines that connect the taps 31 , 32 to the inputs 33 , 34 are, for cost reasons, preferably simple cables without shielding. Capacitive couplings occur between these lines, which are symbolically shown in the figure by the capacitor 51 . The capacitive coupling leads to crosstalk of signals from one to the other line, which can lead to misinterpretations of a supposed measurement result, especially when lines are not connected. To reduce the effect of the capacitive coupling, capacitors 49 , 50 are therefore connected to ground 24 at the inputs 33 , 34 . The capacitors 49 , 50 form with the capacitor 51 , which represents the stray capacitances, a capacitive voltage divider, which reduces the signal components at the inputs 33 , 34 with correspondingly open inputs according to the division ratio. This capacitive voltage division does not affect the regular input signals.

Claims (7)

1. Device for detecting signals that can be tapped at more than one signal source and that are present at the inputs of the device as input signals with means for merging the signals, characterized in that additional means ( 41 ) are provided for the simultaneous selection of one of the Input signals ( 33 , 34 ). 2. Device according to claim 1, characterized in that the selection means ( 41 ) are manually switchable via a manual input ( 48 ). 3. Apparatus according to claim 1 or 2, characterized in that the selection means ( 41 ) of a signal processing arrangement ( 43 ) are switchable, which at at least one signal merging point ( 37 , 40 ) merged input signals ( 33 ) and / or a evaluates an output ( 42 ) of the selection means ( 41 ) connected through input signal ( 33 , 34 ). 4. Device according to one of the preceding claims, characterized in that a first and second group ( 35 , 36 ; 38 , 39 ) of diodes are provided as means for merging the input signals ( 33 , 34 ). 5. Device according to one of the preceding claims, characterized in that at the inputs ( 33 , 34 ) capacitors ( 49 , 50 ) are provided which occur with the stray capacitances ( 51 ) between the inputs ( 33 , 34 ) form capacitive voltage dividers. 6. Device according to one of the preceding claims, characterized characterized by use in the diagnosis of motor vehicles. 7. Device according to one of the preceding claims, characterized by the use in the diagnosis of ignition systems ( 10 ), in particular ignition systems ( 10 ) with more than one ignition coil ( 12 , 13 ) as signal sources.