WO1986002411A1

WO1986002411A1 - Device for controlling and monitoring processes in a motorized vehicle

Info

Publication number: WO1986002411A1
Application number: PCT/DE1985/000314
Authority: WO
Inventors: Michael Horbelt
Original assignee: Robert Bosch Gmbh
Priority date: 1984-10-17
Filing date: 1985-09-11
Publication date: 1986-04-24
Also published as: EP0197959A1; JPS62500540A; DE3437980A1

Abstract

A device for controlling and monitoring processes in a motorized vehicle, especially ignition and fuel injector processes, in which a series-produced microcomputer (10) incorporated in the vehicle for the calculation of these processes as a function of the vehicle parameters, is connected via plug-in connections (11) with at least one emitter (16 to 20) for establishing the actual status of a parameter and at least one triggering device (12 to 15) for these processes. For the purpose of diagnosis, this microcomputer (10) is replaced by a diagnosis microcomputer (22) which is alternately inserted into the plug connections (11); the diagnosis microcomputer contains, in addition to the diagnosis functions, the function of the series-produced microcomputer (10). The errors or error functions determined are stored in an error memory and can be transferred preferably in the workshop by a connection (23) on the diagnosis microcomputer (22) to an external evaluation device (24). As a result, the series-produced microcomputer (10) does not involve any costs and equipment expenditure for the diagnosis; furthermore, it is possible to perform, in the independently operating diagnosis microcomputer (22) very costly diagnosis functions and error storage, and to acquire errors over a very long period of time during normal operation of the vehicle.

Description

Device for controlling and monitoring processes in the motor vehicle

State of the art

The invention relates to a device for controlling and monitoring processes in the motor vehicle, in particular ignition and fuel injection processes.

To monitor such processes, in particular to diagnose errors or malfunctions of control units and sensors, it is known, for example from DE-OS 28 24 190, to provide a diagnostic connection on the controlling microcomputer to which a diagnostic device can be connected in the workshop. The microcomputer that controls the functions in the motor vehicle contains a diagnostic program that can be called up by an external diagnostic device. The disadvantage here is that only constantly occurring errors can be detected that also occur during the short diagnostic time, and secondly must be in the motor vehicle side Microcomputer additional storage spaces are provided. Since this is not possible to any extent with a large-series device, the scope of the diagnosis must inevitably be limited.

Furthermore, WO 83/02 836 discloses a control device for a motor vehicle with a microcomputer, which has a self-diagnosis system with a fault memory, the faults detected being able to be made visible in the motor vehicle using simple display systems. Here, too, it proves to be disadvantageous that a large number of storage spaces are required, which make the system complex and expensive. Nevertheless, the diagnostic effort in such a large-scale device must be limited in order to keep the costs of the system within realistic limits.

Advantages of the invention

The device according to the invention with the characterizing feature of the main claim has the advantage that an inexpensive series control device can be used without a diagnostic device. If a diagnosis is to be carried out or an error occurs, the serial control unit can be easily exchanged by simply plugging it in with a workshop control unit (diagnostic microcomputer) which, in addition to the necessary control functions, also has very complex diagnostic functions and error memory. If the error does not occur immediately, this workshop control unit can also be left in the motor vehicle for a longer period of time in order to record and record the error. Errors identified in this way can then be read out in the workshop via an evaluation device. Thus, information about errors and malfunctions can be recorded while driving, although a simple and inexpensive series control device is used in normal operation. Advantageous further developments and improvements of the device specified in the main claim are possible through the measures listed in the subclaims. When using self-adapting diagnostic microcomputers, a single type can be used for a large number of different vehicles, since this diagnostic microcomputer recognizes which type of motor vehicle it is, depending on the connected sensors and triggering devices, and generates or selects the corresponding control and diagnostic functions. This provides extensive self-diagnosis options without individual effort.

drawing

An embodiment of the invention is shown in the drawing and explained in more detail in the following description. The single figure shows a block diagram of the device according to the invention.

Description of the embodiment

Eϊn. Series control unit designed as a microcomputer 10 is connected via a plug-in connection 11 both to four triggering devices 12 to 15 and to five transmitters 16 to 20. In addition, there is a connection to ground and to the positive pole 21 of a supply voltage source, in particular a motor vehicle battery. An ignition output stage 12, injection output stages 13, an output stage 14 for controlling an automatic transmission and a control output stage 15 for an anti-lock braking system are provided as triggering devices. The number of these triggering devices or functions can of course be expanded or reduced as desired. The same applies to the five sensors 16 to 20 shown, for which, for example, speed sensors, temperature sensors, pressure sensors, load sensors, torque sensors etc. can be provided. This depends on the type of triggering devices to be controlled, ie which parameters have to be recorded for the necessary control functions. Such a system for controlling the ignition and fuel injection is described in more detail, for example, in DE-OS 28 50 534.

Instead of the microcomputer 10 used as a series control device, a diagnostic microcomputer 22 can alternatively also be inserted into the plug connection 11. This has a connection 23, via which it can be connected to an external evaluation device 24, for example in the workshop. This evaluation device 24 can be, for example, a data display device and / or a printer and / or a simple display instrument.

In normal operation, the standard microcomputer 10, which has no diagnostic functions, is connected to the plug connection 11 and, depending on the parameters detected, generates the necessary control functions for the triggering devices 12 to 15. If an error occurs or the vehicle in which this system is installed becomes , brought into the workshop for inspection, the microcomputer 10 is unplugged and the diagnostic microcomputer 22 is inserted in its place. This diagnostic microcomputer contains at least the same control functions as the microcomputer 10 and can therefore work independently. In addition, a large number of variable control functions are preferably provided for different types of motor vehicles, the connected sensors and triggering devices initially being queried for adaptation via the inputs and outputs to determine what type of motor vehicle it is. The necessary control functions and memory locations or memory maps are made available accordingly.

In addition, a large number of diagnostic functions are contained in a diagnostic program, by means of which the transmitters 16 to 20, the connecting lines and the triggering devices 12 to 15 are checked. The results are stored in non-volatile memories. If an error occurs only sporadically, this diagnostic microcomputer can remain in the vehicle as a replacement device until this error occurs again and is saved. The stored errors and malfunctions can then be called up via the evaluation device 24 which can be connected in the workshop.

The standard microcomputer 10 used as a control device therefore does not have to be burdened with any costs and assembly costs for diagnosis, while the diagnostic microcomputer, which as a workshop device is not so important in terms of effort and costs, has a large number of complex functions and storage options can be equipped. This provides extensive self-diagnosis options without individual effort. Due to the large number of possible functions in the diagnostic microcomputer, complex interfaces can be avoided.

Claims

Expectations

1.Device for controlling and monitoring processes in the motor vehicle, in particular ignition and fuel injection processes, with a microcomputer (10) installed as standard in the motor vehicle for calculating these processes as a function of vehicle parameters, which is connected to at least one sensor (16 to 20) for detecting the actual state of a parameter and at least one triggering device (12 to 15) for these processes, characterized in that an alternative to the plug-in connection (11) diagnostic microcomputer (22) is provided, which in addition to diagnostic functions Functions of the standard built-in microcomputer includes that an error memory for detected errors or malfunctions is contained in this diagnostic microcomputer (22) and that the detected errors or malfunctions can be passed to an external evaluation device (24) via a connection (23) .

2. Device according to claim 1, characterized in that the diagnostic microcomputer (22) has a self-adaptation via variable control and diagnostic functions and that it contains a selection program by which depending on the connected encoder and Auslöse¬

Devices the necessary assigned control functions are selected and / or set.

3. Apparatus according to claim 1 or 2, characterized in that the error memory is a non-volatile memory.