DE3309802C2 - Electronic system for motor vehicles - Google Patents

Abstract

Instead of individually adjustable or even different control devices that establish a correlation between the transducer and the measured value to be displayed, uniform control devices are used which are controlled via a read-only memory and from this the necessary information about the relationship between the output signal of the transducer and the variable to be displayed, which varies from vehicle type to Car type is different.

Description

2. System according to claim 1, characterized in that the common unit (22) is a ROM having.

3. System according to claim 2, characterized in that characteristic curves are stored in the ROM, which run according to an assignment of the value measured by the sensor to the calibrated value.

The present invention relates to an electronic system for motor vehicles genv "the preamble of Claim 1.

In systems such as! E to the state of the Technology, the following arrangement is provided: A sensor controls a conversion arrangement, in general referred to as the control unit, a follow-up unit. The sensor is used, for example, to measure the fuel flow, Measure the tank content, the distance traveled or the coolant or outside temperature. Because now The same sensors are installed in different motor vehicle models from the sensor display alone no statement about the actual value of the measured size is possible. For example, there is a Tank level sensor suitable for determining the fill level of the tank, but the tank level also depends on the geometric dimensions of the tank and not just on its fill level. Thus, to get the ad To correlate with the actual measured variable, a control unit can be provided, what from the sensor display determines the actual value to be displayed.

It goes without saying that for the different Motor vehicle types also require different control devices or differently set control devices are. Correspondingly, the path is also being harvested today. that either the control unit, for example a calibration of the relationship between the sensor display by means of a coding switch or a potentiometer to be set and display instrument is made, or that just one for each different model own control unit is provided, which thus differs from that of another model.

The disadvantage of this method is that due to errors in production, namely either choosing the wrong one Control device or an incorrect setting of the stötiergerätes. incorrect measurements can be caused.

The object of the invention is to eliminate incorrect measurement displays as far as possible.

The object is achieved by the features specified in the characterizing part of claim 1.

Advantageous embodiments are described in claims 2 and 3.

One possible embodiment is that an electronic unit is provided which is equipped with a ROM is. which may be programmable in the production process with the corresponding carriage data is All control devices are controlled by this ROM and therefore obtain their information in which Way, the sensor display must be converted into the measured value. This can be done, for example, by the default

is be a characteristic curve that corresponds to a measured sensor value Ad assigns, done.

The measured values obtained in this way are either displayed if necessary or, e.g. B. in an on-board computer, the corresponding calculations from several measured values (e.g. from consumption and distance counting the range) determined, processed.

The invention not only lowers the error rate in production, it is also possible to get by with less storage, since only a single control device needs to be installed for the different model variants. As a result, the manufacturing costs can be reduced, also due to higher induction numbers.
In addition to read-only memories, for example, so-called? EEP ROM (electrically erasable programmable ROM) or EA ROM (electrically alterable ROM) can be used, which enable additional use as a distance counter with electronic distance display and / or as a central error memory.

In the following, an embodiment of the invention will be explained in more detail with reference to the figure. It shows Fig. 1 is the block diagram of a system naen the State of the art; and

Fig. 2 is the block diagram of a :. System accordingly the invention.

In Fig. 1 shows a structure according to the prior art, a first sensor which is provided with the reference number 10. should, for example, the fuel tank stop measuring while a second sensor, labeled with the reference numeral 12, for example, measures the distance. However, since the tank content exceeds the level in the Tank is identified, need information at the same time available on the geometric dimensions of the tank.

^ a to be able to determine the content from the fill level. This information is also located in a first control device, denoted by the reference numeral 14, which is set, for example, via a potentiometer 16 to the tank installed in this type of car. With the values set and adapted in this way, these values can be displayed.

To determine the distance, what the task of the second sensor 12 is. it is necessary next to the number of the revolutions of a wheel also to know its circumference, a quantity that is between different Vehicle models can be quite different. The first control unit 14 must then also be at this size, if it needs this information, and the second Control unit 18 can be set, it being customary

b5 if only this size is to be indicated that the entire Control unit, in this case the second control unit 18, is matched to the type of car.

The display 20 can now be a direct display

or it can be made up of tank contents and distance traveled, with consumption still included in the calculations must be made, predictions about the still possible range are made via an on-board computer.

According to the invention, it is no longer necessary to connect the first control device 14 and the second control device 18 in each case individually either to be set via a potentiometer 16 or even to be replaced entirely. Rather is a ROM 22 is provided which, under certain circumstances, can be programmable and / or erasable in order to control the control units 14 and 18 to be provided with information. The first and the second control device 14 and 18 determine from the data they receive from the ROM 22, the correlation between the display of the sensors 10 and 12 and the desired measured value, so that the control units are retained in spite of different car types and do not need to be set, so that simply by inserting a corresponding ROM the Calibration can be made on the measuring sensors. Instead of a read-only memory 22, it is natural possible to use a programmable read-only memory 22, which in production with a corresponding Program is provided, so that the storage of various ROMs is superfluous.

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Claims (1)

Patent claims: 1. Electronic system for motor vehicles, with a) sensors that record a measured value and display it electrically, b) Uni-set arrangements to convert the measured sensor values into coordinated and calibrated values, and c) Follow-up units to display or further process the values determined in this way, characterized in that d) the relocating arrangements (14, 18) is assigned a common unit (22) which carries the relocating arrangements controls in order to use the values measured by the sensors (10, 12) to determine the and to calculate calibrated values.