DE102004048078A1 - Motor-control unit temperature monitoring method for internal combustion engine, involves supplying difference signal of difference unit together with threshold signal to comparator unit using arithmetic and logic unit - Google Patents

Abstract

The method involves emitting a temperature signal (11.1) using a temperature sensor device (11). A reference signal (30.1) of a reference unit (30) is detected in a difference unit (20) from the temperature signal. An arithmetic and logic unit (90) supplies a difference signal of the difference unit together with a threshold signal to a comparator unit, where the threshold signal is calculated for engine characteristics. An independent claim is also included for a device for monitoring a temperature of a motor-control unit for an internal combustion engine.

Description

State of technology

The The invention relates to a method for monitoring the temperature of an engine control unit for an internal combustion engine with a temperature sensor device having a temperature signal emits.

The The invention further relates to a device for temperature monitoring an engine control unit for one Internal combustion engine, wherein provided in the engine control unit, a temperature sensor device is.

Be engine control units Depending on the design concept, it is often mounted directly on the engine. So, for example the integration be provided in the intake manifold. This leads to, that they can heat up a lot. Decisive for this is the power loss of the engine control unit itself. This can be extra at multiple injection and high speed be high, especially in injection systems with piezo injectors can be critical. The integration of temperature sensors for temperature monitoring in the engine control unit belongs therefore now the primary Protective measures of Motor controllers.

Out DE-OS 19860762 A1 is a method for protecting power amplifiers known before overtemperature. In this case, the temperature of at least one component of the control unit is determined. For this purpose, a measuring means of a temperature model is determined, the at least the internal power loss of the control unit component considered. The disadvantage here is that not the real temperature of Engine control unit is determined and only critical conditions can be detected, the included in the model.

Becomes monitors the temperature of the engine control unit by means of a temperature sensor device, the correct actual value of the temperature is reliably determined. adversely is in such monitoring, that the proper function of the temperature sensor itself is not monitored which may cause the engine control unit to overheat can be when the temperature sensor malfunctions.

One safe protection of the engine control unit can only be ensured when the temperature sensor device operates accurately. But these are is subject to aging drift during the lifetime or can also be quite, it is an object of the invention, a method to provide with which monitors the function of the temperature sensor device can be.

It It is a further object of the invention to provide a device for this purpose.

Advantages of invention

The The object relating to the method is achieved in that the temperature control an engine control unit subjected to a diagnosis with a temperature sensor device is, wherein of the temperature signal of the temperature sensor device in a difference unit, a reference signal of a reference unit is subtracted, and a difference signal of the difference unit, together with a threshold signal from a computing unit, a comparator unit supplied becomes. This can be achieved that over the prior art Error of the temperature sensor can be diagnosed when the Difference of the measured value of the temperature sensor device and the Reference temperature exceeds a threshold. The function The temperature sensor device can thereby be constantly monitored, so that the Motor control unit safely protected is.

A preferred embodiment provides that an output signal of the comparator unit via a Function unit a fault memory and / or a display unit and / or a motor control via Output signals supplied become. This will allow if a fault occurs, a diagnostic lamp is switched on in the cockpit can be and / or sounds an audible warning. alternative to or in addition an entry can be made in the error memory of the engine control, so that a flag is set which is suitable for downstream diagnostic or control processes can be evaluated.

One Emergency operation of the internal combustion engine can also be ensured if in the engine control on a power loss reducing Injection is switched. This can be done in a simple way take place that is switched to a single injection. With this measure the power loss of the electronics can be significantly reduced causing the engine control unit effectively protected becomes.

A preferred variant of the method provides that in the arithmetic unit from at least one, preferably a plurality of engine parameters of the threshold value is calculated. This can be a dynamic adaptation to different Operating phases of the engine take place.

As a reference signal, a temperature signal of a temperature sensor device and / or a modeled temperature signal can be used, which in the reference unit by means of a modeling unit and / or a characteristic unit is calculated from a modeling signal as the input signal of the reference unit. In this way it can be achieved that the second temperature sensor device and the first monitor each other. If a modeling unit is used, the expense for the second temperature sensor device can be eliminated and the solution is particularly cost-effective.

The The object relating to the device is achieved by the device for temperature monitoring an engine control unit for one Internal combustion engine in the engine control unit, a temperature sensor device has, and that for the temperature control a diagnostic device is provided, wherein a temperature signal the temperature sensor device and a reference signal of a reference unit fed to a difference unit, and a difference signal from the difference unit, together with a Threshold signal from a computing unit, a comparator unit supplied is. With that you can Deviations are detected reliably, indicating a malfunction indicate the temperature sensor device.

Stands an output signal of the comparator unit via a functional unit with a fault memory and / or a display unit and / or a Motor control via Output signals in operative connection, so entries in a fault memory carried out in downstream diagnostic or control processes can be evaluated. Parallel or alternatively also visual and / or acoustic warning signals are triggered in the cockpit, or an emergency operation is triggered in the engine control, which reduces the temperature entry in the engine control unit.

has the arithmetic unit as input signals at least one, preferably several engine parameters, can Complex evaluations of the operating phases of the internal combustion engine take place.

In a preferred embodiment the reference unit is designed as a temperature sensor device, the for example, as a reference, the water temperature of cooling water the internal combustion engine measures.

has the reference unit is a modeling unit and / or a characteristic unit, wherein the Reference unit at least one modeling signal as an input signal has, a second temperature sensor device can be omitted and the solution becomes particularly cost effective.

The Diagnostic device can be both as software and / or as hardware be formed, with a stored as a program diagnostic device especially easy as a diagnostic subroutine in the entire engine control software can be integrated.

drawing

The Invention will be described below with reference to one shown in the figures embodiment explained in more detail. It demonstrate:

1 a schematic representation of a diagnostic device;

2 a schematic representation of a reference unit.

3 a schematic representation of a flowchart

Description of the embodiments

1 shows a device 1 for temperature monitoring for an engine control unit 10 for an internal combustion engine. In the illustrated embodiment is in the engine control unit 10 a temperature sensor device 11 intended. This is a temperature signal 11.1 the temperature sensor device 11 and a reference signal 30.1 a reference unit 30 a difference unit 20 fed. A difference signal 20.1 from the difference unit 20 will, along with a threshold signal 90.1 from a computing unit 90 , a comparator unit 40 fed. It can also be provided that initially the amount of the difference signal 20.1 is formed. An output signal 40.1 the comparator unit 40 is about a functional unit 50 with a fault memory 60 , a display unit 70 and a motor controller 80 via output signals 50.1 . 50.2 . 50.3 in active connection. In the exemplary embodiment shown, the arithmetic unit 90 as input signals at least one, preferably a plurality of engine parameters 100 on.

In a preferred embodiment, the reference unit 30 designed as a temperature sensor device which measures, for example, as a reference variable, the water temperature of the cooling water of the internal combustion engine.

To diagnose the function of temperature control for the engine control unit 10 is from the temperature signal 11.1 the temperature sensor device 11 in the difference unit 20 the reference signal 30.1 the reference unit 30 deducted. The difference signal 20.1 the difference unit 20 gets along with the threshold signal 90.1 from the arithmetic unit 90 in the comparator unit 40 compared. Is the difference signal 20.1 or its amount greater than the threshold signal 90.1 , so it can be assumed that a temperature error sensor device 11 is present. A corresponding output signal 40.1 the comparator unit 40 is then via the functional unit 50 a fault memory 60 and / or a display unit 70 and / or a motor control 80 via output signals 50.1 . 50.2 . 50.3 fed. This makes it possible that in the presence of a fault of the temperature sensor device 11 in the display unit 70 a diagnostic lamp is switched on in the cockpit and / or an acoustic warning signal sounds.

Alternatively or additionally, an entry in the error memory 60 The motor control done so that a flag is set, which can be evaluated for downstream diagnostic or control processes.

An emergency operation of the internal combustion engine can also be ensured if by the output signal 50.3 the functional unit 50 in the engine control 80 Switched to single-injection, reducing the power loss of the engine control 80 is reduced.

The functional unit 50 has the task to control the units described above, which, depending on the monitoring concept, all units in parallel, individually or, depending on the amount of deviation or depending on the duration of the detected deviation, can be controlled sequentially.

In a preferred embodiment, the threshold signal 90.1 not constant, but is in the arithmetic unit 90 from at least one, preferably a plurality of engine parameters 100 calculated. The threshold signal 90.1 It can be adapted dynamically, depending on different operating phases, such as cold start or hot start, as well as on conditions for multiple injection. Is the difference signal 20.1 greater than the threshold signal valid for the current limit value 90.1 , is to assume a malfunction.

2 shows the reference unit 30 a in an embodiment variant. This consists of a modeling unit 31 and / or a characteristic unit 32 , wherein the reference unit 30 at least one modeling signal 110 has as input signal. The reference signal 30.1 In this case, it is not a temperature signal of a temperature sensor device but a modeled temperature signal included in the reference unit 30 by means of the modeling unit 31 and / or the characteristic unit 32 from the modeling signal 110 as input signal of the reference unit 30 is calculated.

The modeling signal 110 may be, for example, a time clock, with the means of the characteristic unit 32 a modeled reference temperature as a reference signal 30.1 is calculated. Alternatively, it can also be from the engine parameters 100 that are inside the engine control 80 available with the modeling unit 31 a reference signal 30.1 be calculated, which depends on the operating condition (eg cold start, hot start).

The device 1 can be designed both as software and / or as hardware. A device deposited as a program 1 In particular, in today's μ-processor controlled motor controls, it is easy to integrate as a diagnostic subroutine in the entire motor control software.

3 shows a schematic representation of a flowchart, as it may be performed for example as a diagnostic subroutine. To diagnose the function of temperature control for the engine control unit 10 in the first step, the difference between the detected temperature of the engine control unit 10 "T_SG" and the reference signal 30.1 the reference unit 30 The difference then becomes the threshold signal 91.1 If the difference is "T_SG" - "T_Ref">"THRESHOLD", then an error has to be assumed. It may be provided to form the amount of the difference and this with the threshold signal 91.1 to compare.

In the subsequent step takes place within the functional unit 50 an entry in the error memory 60 and / or in the display unit 70 and / or it gets into the engine control 80 intervened. If the conditions are not fulfilled, the main program will continue.

With the inventive design of the diagnostic device and the diagnostic method can be achieved that the function of the temperature sensor device 11 is constantly monitored, so that allows the engine control unit 10 is safely protected.

Claims (12)

Method for monitoring the temperature of an engine control unit ( 10 ) for an internal combustion engine with a temperature sensor device ( 11 ), which receives a temperature signal ( 11.1 ), characterized in that the temperature monitoring is subjected to a diagnosis, wherein the temperature signal ( 11.1 ) in a difference unit ( 20 ) a reference signal ( 30.1 ) a reference unit ( 30 ), and a difference signal ( 20.1 ) of the difference unit ( 20 ), together with a threshold signal ( 90.1 ), from a computing unit ( 90 ), a comparator unit ( 40 ) is supplied. A method according to claim 1, characterized gekenn records that an output signal ( 40.1 ) of the comparator unit ( 40 ) via a functional unit ( 50 ) a fault memory ( 60 ) and / or a display unit ( 70 ) and / or a motor control ( 80 ) via output signals ( 50.1 . 50.2 . 50.3 ). A method according to claim 1 or 2, characterized in that in the engine control ( 80 ) is switched to a power loss reducing injection. Method according to claim 3, characterized in that in the engine control ( 80 ) is switched to a single injection. Method according to at least one of claims 1 to 4, characterized in that the threshold signal ( 90.1 ) in the arithmetic unit ( 90 ) of at least one, preferably a plurality of engine parameters ( 100 ) is calculated. Method according to at least one of claims 1 to 4, characterized in that as a reference signal ( 30.1 ) a temperature signal of a temperature sensor device and / or a modeled temperature signal are used, which in the reference unit ( 30 ) by means of a modeling unit ( 31 ) and / or a characteristic unit ( 32 ) from a modeling signal ( 110 ) as the input signal of the reference unit ( 30 ) is calculated. Contraption ( 1 ) for monitoring the temperature of an engine control unit ( 10 ) for an internal combustion engine, wherein in the engine control unit ( 10 ) a temperature sensor device ( 11 ) is provided, characterized in that for the temperature monitoring, a diagnostic device is present, in which a temperature signal ( 11.1 ) of the temperature sensor device ( 11 ) and a reference signal ( 30.1 ) a reference unit ( 30 ) a difference unit ( 20 ), and a difference signal ( 20.1 ) from the difference unit ( 20 ), together with a threshold signal ( 90.1 ) from a computing unit ( 90 ), a comparator unit ( 40 ) is supplied. Contraption ( 1 ) according to claim 7, characterized in that an output signal ( 40.1 ) of the comparator unit ( 40 ) via a functional unit ( 50 ) with a fault memory ( 60 ) and / or a display unit ( 70 ) and / or a motor control ( 80 ) via output signals ( 50.1 . 50.2 . 50.3 ) is in operative connection. Contraption ( 1 ) according to claim 7 or 8, characterized in that the arithmetic unit ( 90 ) as input signals at least one, preferably a plurality of engine parameters ( 100 ) having. Contraption ( 1 ) according to at least one of claims 7 to 9, characterized in that the reference unit ( 30 ) is a temperature sensor device. Contraption ( 1 ) according to at least one of claims 7 to 10, characterized in that the reference unit ( 30 ) a modeling unit ( 31 ) and / or a characteristic unit ( 32 ), wherein the reference unit ( 30 ) at least one modeling signal ( 110 ) as an input signal. Contraption ( 1 ) according to at least one of claims 7 to 11, characterized in that the diagnostic device ( 1 ) is designed as software and / or as hardware.