DE19954177A1 - Procedure for checking the functionality and / or for adjusting an exhaust gas temperature sensor - Google Patents

Abstract

A method for testing the performance and/or adjustment of a temperature sensor (exhaust gas temperature sensor), arranged in the exhaust of an internal combustion engine of a motor vehicle is characterised by the following steps: after a pre-determined switch-off time of the internal combustion engine is exceeded; a reference temperature is recorded by means of at least one further temperature sensor, arranged in the vehicle, physically separate from the exhaust sensor; comparison with the temperature recorded by the exhaust temperature sensor and a fault signal issued, or the output value of the exhaust gas temperature sensor adjusted to match the value measured by the further temperature sensor, when the recorded temperatures differ from each other by more than a pre-determined value.

Description

State of the art

The invention relates to a method for testing the Functionality and / or to compare one in the Ab gas an internal combustion engine of a motor vehicle arranged temperature sensor (exhaust gas temperature sensor).

Temperature sensors for motor vehicles are an example from the publication "Automotive Ta schenbuch / Bosch "22nd edition - Düsseldorf, VDI- Verlag, 1995, page 119 ff. The temperature meas solution in motor vehicles almost exclusively uses the Temperature dependence on electrical resistance materials with positive (PTC) or negative (NTC) tem temperature coefficient. Implementation of the Resistance  The change to an analog voltage almost takes place finally by adding a temperature neutral or oppositely dependent resistance to a chip divider.

As part of on-board diagnosis (OBD and EOBD) all exhaust-relevant components in the exhaust line Motor vehicle with regard to their functionality be monitored. It is known to work exhaust gas temperature sensors by the at the tem Check the voltage sensor tapped. There at is a given plausible voltage range or a plausi obtained from it via a characteristic curve bler temperature range checked. Rough electrical Errors such as B. a short circuit in the measuring line Ground / supply voltage can be in this way be clearly recognized. However, it is not possible Drift phenomena in the offset area, for example by aging or by shunts, in which the measuring voltage is still in the plausible, specified span range is to be detected.

The invention is therefore based on the problem Procedures for checking functionality and / or for calibrating an exhaust gas temperature sensor so on to form such offset errors and secondary conclusions recognized and thus one of the on-board Diagnostic malfunction detection can be implemented is.  

Advantages of the invention

A method for testing the functionality and / or for comparing an exhaust gas temperature sensor of the type described in the introduction solves this problem by the following steps:

• - after exceeding a specified shutdown time the internal combustion engine;
• - Detection of a reference temperature by at least another, spatially from the exhaust gas temperature sor in the motor vehicle separately arranged tem temperature sensor;
• - Compare it with the exhaust gas temperature sensor recorded temperature and
• - Issue a fault message or adjust the Output values of the exhaust gas temperature sensor if the recorded temperatures from each other by a predetermined value deviate.

By comparing it from the exhaust gas temperature sensor captured temperature with at least one more, of the exhaust gas temperature sensor in the motor vehicle separately arranged sensor is not just a functional test of the exhaust gas temperature sensor and, if it deviates captured temperature values by a predetermined value, ei ne issue of a fault report, but also an Ab equal to the exhaust gas temperature sensor by adjustment its output value to that of the further temperature sensor detected value possible. The capture of the refe  limit temperature and the temperature of the exhaust gas temperature sensors take place after exceeding a pre given engine shutdown time to be safe to ensure that the different, Temperatures detectable in a vehicle within the predetermined shutdown time of the internal combustion engine the ambient temperature has occurred, that is, a thermal equilibrium is reached and so far a comparison of the from the exhaust gas temperature sensor and the further sensor output temperature makes sense at all is full.

In principle, the comparison of the exhaust gas is sufficient temperature sensor output temperature with the tem temperature, that of a single further, of the exhaust gas temperature sensor separately in the motor vehicle ordered temperature sensor is detected. With a be however, a particularly advantageous embodiment is provided see that you can adjust the temperature using several, at un different installation positions in the motor vehicle ordered temperature sensors and this tempera averages for determining the reference temperature. This may result in the further temperature measuring errors occurring sensors are compensated.

It is advantageous to adjust the exhaust gas temperature sensor the difference between that by the Abga temperature sensor detected temperature and the Refe limit temperature and calculate this difference calibration of the temperature-resistance behavior a temperature-dependent resistance of the exhaust gas temperature  ratursensors used. This allows for easy Way when the exhaust gas temperature deviates sensor detected temperature from the reference temperature an adaptation of the temperature-resistance behavior of the temperature-dependent Wi the level of the exhaust gas temperature sensor can be achieved.

The temperature-resistance behavior of the temperature-dependent measuring resistor is advantageously determined by the following formula:

R (T) = R ₀ (1 + αT + βT ² )

with the resistance constant R ₀ , and the material constants α and β, the computational adjustment being made by changing the resistance constant R ₀ .

The determination of the constants α, β are calculated by measuring the temperature-dependent measuring resistance of the exhaust gas temperature sensor at different, from different temperatures determined.

The parking time can be exceeded at a partial execution form can also be verified that the temperatures of several at different Installation positions in the motor vehicle arranged tem temperatures recorded and the parking time exceeded then assumes when these temperatures are essentially to match.  

drawing

Further advantages and features of the invention are counter stood the following description and the drawing rical representation of an embodiment of the Er finding.

The drawing shows:

Fig. 1 is a known circuit for detecting the temperature of a resistive Abgasempe temperature sensor of a motor vehicle on the voltage drop across this and

Fig. 2 shows schematically a block diagram for explaining tion of the inventive method.

Description of the embodiments

To detect the exhaust gas temperature by means of resistive exhaust gas temperatures with a resistor R _T , a series circuit shown in FIG. 1 with a fixedly defined series resistor R _{V is} provided. This series circuit is supplied with a voltage U ₀ , which is 5 V for example.

About the voltage divider rule:

U _m = U ₀ R _T / R _T + R _V (1)

one obtains a voltage representative of the current temperature at the sensor element, ie at a resistance element. Previous diagnostic functions mainly consisted of a plausible voltage range U _m = [U _min . , , U _max ] or a temperature range T _m = [T _min . , , T _max ] to be checked. This can cause gross electrical errors such. B. a short circuit in the measuring line leading to ground or to the supply voltage U ₀ can be clearly identified. However, drift phenomena in the offset range due to aging or by shunts, in which the measurement voltage U _m lies in the specified voltage interval, cannot be detected in this way.

In order to be able to recognize such errors as well, the measuring voltage U _m or temperature T _m detected by the exhaust gas temperature sensor is compared with the temperatures of further temperature sensors in the vehicle and, in the event of a deviation by a predetermined value, an error message is output or an adaptation of the temperature resistance - Behavior of the exhaust gas temperature sensor.

To achieve this, the following process steps are required intended:

First of all, a sufficiently long downtime is the Internal combustion engine or the vehicle required, so that the vehicle is in thermal equilibrium finds. The duration of the parking time can also be changed by Comparison of the temperatures of several reference temperatures sensors are verified.  

Immediately before starting the internal combustion engine again The sensor temperature is now shown with an or multiple temperatures from of the exhaust gas temperature Sensor separately arranged temperature sensors detected be, e.g. B. with the engine temperature, with the water temperature or with the intake air temperature Chen, with mean values of these temperatures being formed and this average is used as the reference temperature becomes. It is understood that the reference temperature ne ben the mean also by other mathematical ope rations by the individual temperature sensors temperatures can be formed.

To a deviation from the exhaust gas temperature sensor recorded temperature from the reference temperature can use the reference temperature determined in this way a tolerance band in which the exhaust gas sensor temperature must be when the exhaust gas temperature sensor should be diagnosed as error-free. Lies the temperature detected by the exhaust gas temperature sensor outside of this tolerance band, a fault occurs message issued.

In addition, a computational Ab equal to the temperature-resistance behavior of the tempe temperature-dependent resistance of the exhaust gas temperature sensor in the manner described below the.  

The temperature-dependent resistance of resistive exhaust gas temperature sensors is in most cases designed as a meandering platinum layer. With the approximation formula:

R (T) = R ₀ (1 + αT + βT ² ) (2)

the dependence of the resistance on the temperature is described, where R _{0 is} a resistance constant and α and β substance constants, which are, for example, for platinum α = 3.8285e-3 and β = -5.85e-7. Substituting this equation (2) in equation (1), we get:

U _m = U ₀ .R _V / [R ₀ (1 + αT + βT ² ) + R _V ] (3)

Errors over the lifetime of the exhaust gas temperature sensor can now occur on the one hand as an offset, and on the other hand also in relation to the slope of the characteristic curve (α, β). If the sensor signal lies immediately before the engine starts outside the tolerance band described above, the resistance constants or the basic resistance R ₀ can be adjusted in order to increase the accuracy. In the case of a further temperature measurement under other boundary conditions, for example at a different operating point, an adaptation of the material constants α and β can be carried out, which is necessary because the material constants α, β, for example, by contamination of the meandering platinum layer or by diffusion of foreign particles are changeable.

If the series resistor R _V is selected such that: R _V = kR ₀ , the result is:

U _m = U _0. {(1 + αT + βT ² ) / (1 + αT + βT ² + k)} = f (U ₀ , α, β, k, T) (4)

Since U ₀ , α, β and k are assumed to be constant and fixed, the measurement voltage U _{m is} a function of the temperature to be measured: U _m = f (T).

As is shown schematically in FIG. 2, the measurement voltage U _{m is first} output by the exhaust gas temperature sensor 10 , a conversion into a temperature T according to equation (4) takes place in a step 20 .

In parallel, the reference temperature T, in a step 30 determines _Ref to the above-described manner and in a step 40 of the Abgastemperatursen sor 10 detected temperature T with the reference temperature Tref compared, and in particular it is determined whether the detected from the exhaust temperature sensor 10 temperature T in a predetermined tolerance band around T _Ref . The result of these calculations can be output as a diagnostic result, in particular a fault message being output if the value of the temperature T detected by the exhaust gas temperature sensor 10 is outside the tolerance band.

In addition, by adapting the adaptation variables U ₀ , α, β, the temperature-resistance behavior of the temperature-dependent resistance of the exhaust gas temperature sensor 10 can be compared, as is shown schematically by an arrow 41 in FIG. 2 and above using the equations ( 1) to (4) has been described. In a further adjustment on these following measurement by the exhaust gas temperature sensor 10 can be examined now is whether the exhaust gas is of the Tempe ratursensor 10 detected temperature T in the tolerance band.

For all measurements - as explained above tert - be sure that the vehicle is in the thermal equilibrium, d. H. there must be one The specified shutdown time of the internal combustion engine has passed be until such a diagnosis and such ger adjustment of the exhaust gas temperature sensor can take place. A diagnosis or ab is advantageously carried out immediately before the internal combustion engine is started again.

Claims (6)

1. Method for checking the functionality and / or for adjusting a temperature sensor (exhaust gas temperature sensor) arranged in the exhaust gas of an internal combustion engine of a motor vehicle, characterized by the following steps:

• - After exceeding a predetermined shutdown time of the internal combustion engine;
• - Detection of a reference temperature by least least a further, spatially separated from the Abga temperature sensor in the motor vehicle arranged temperature sensor;
• - Compare the temperature detected with the exhaust gas temperature sensor and
• - Outputting a fault message or adjusting the output value of the exhaust gas temperature sensor to the value measured by the further temperature sensor if the recorded temperatures differ from one another by a predetermined value.

2. The method according to claim 1, characterized in that that the temperatures can be measured using several un different installation positions in the motor vehicle  arranged temperature sensors recorded and these temperatures to establish the reference temperature temperature averages. 3. The method according to claim 2, characterized in that that the difference between the by the Ab gas temperature sensor detected temperature and the Forms reference temperature and this difference to mathematical comparison of the temperature resistance Behavior of a temperature-dependent resistance of the exhaust gas temperature sensor used. 4. The method according to claim 3, characterized in that the resistance-temperature behavior of the temperature-dependent measuring resistor is determined according to the following formula:
R (T) = R ₀ (1 + αT + βT ² ) (2)
where R _{0 is} a resistance constant and α, β material constants, and the adjustment takes place mathematically by changing the resistance constant R ₀ . 5. The method according to claim 4, characterized in that the constants α, β can be determined by measuring the temperature-dependent measuring resistance of the exhaust gas temperature sensor at different, from each other deviating temperatures determined by calculation.   6. The method according to claims 1 to 5, characterized records that the temperatures of several, spatially from the exhaust gas temperature sensor in the Temperatursen separately arranged motor vehicle compares sensors and of exceeding the Ab positioning time runs out when these temperatures in the essentially match.