JPS62131343A - Diagnostic display system for electronic equipment on vehicle - Google Patents

Abstract

PURPOSE:To simplify a power supply system and to make self-diagnosis and display of diagnostic results possible by connecting commonly the power source of an input circuit and that of the second power supply circuit in the output side of a unit which can turn on and off this power supply circuit. CONSTITUTION:The control power of a microcomputer 5 is supplied by the first power supply circuit 6, and that of a diagnostic information storage device 11 is supplied by the first power supply circuit 6 and the second power supply circuit 7. The first power supply circuit 6 is connected to a battery 2 through an ignition switch 3, and the second power supply circuit 7 and an input circuit 10 are connected to a battery 2 through a fuse 4. The ignition switch 3 is turned on and the fuse 4 is pulled out to start the display of contents of self-diagnosis of the microcomputer 5. The ignition switch 3 is turned off to erase contents of the diagnostic information storage device 11. Next, the fuse 4 is set.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention is directed to a diagnostic display method for an on-vehicle electronic device, particularly for an on-vehicle electronic device that controls a vehicle and has a self-diagnosis function, by simplifying power supply wiring. The present invention relates to a diagnostic display method that allows the above-mentioned self-diagnosis results to be displayed with a simple operation.

(Prior Art and Problems to be Solved by the Invention)--M is known as an in-vehicle electronic device that controls, for example, an automobile engine, transmission, etc., using a microcomputer. Further, such in-vehicle electronic devices generally have a function (hereinafter referred to as a self-diagnosis function) of diagnosing the operation of the microcomputer and displaying the diagnosis results. The in-vehicle electronic device having the self-diagnosis function includes: a diagnostic information storage device that stores diagnostic information; and a display device that displays the diagnostic information.

The microcomputer is provided with an input circuit for inputting signals such as diagnosis start, test start, and diagnosis display to the microcomputer. The operating modes of such in-vehicle electronic devices include 1, for example, a normal control mode that controls the engine, transmission, etc., a diagnostic display mode that diagnoses the operation of the microcomputer and displays the diagnosis contents, and 2) Displays the above diagnostic information after the diagnosis is completed. There is an erase mode for erasing the contents stored in the storage device.

In addition, these power supply systems in conventional in-vehicle electronic devices are such that power is supplied from a battery installed in the vehicle to the microcomputer and diagnostic information storage device via, for example, an ignition switch.

Power was supplied to the diagnostic information storage device through a switch and a detachable fuse, and to the input circuit through another switch and a detachable fuse.

(Means for solving problems) The present invention aims at simplifying the power supply system.

The above-mentioned mode selection can be performed simply by turning on and off the power supply connection, and therefore, the diagnostic display method of the in-vehicle electronic device of the present invention uses a microcomputer that controls the vehicle and performs self-diagnosis processing. , a diagnostic information storage device in which diagnostic information is stored, an input circuit 2 that inputs diagnostic/test signals to the microcomputer, a display device that displays diagnostic results, and a display device that is connected to the power supply so that it can be turned on and off independently. the microcomputer is connected to the first power supply unit, and the diagnostic information storage device is connected to the first power supply unit.
and a vehicle electronic device configured to be commonly connected to a second power supply circuit, wherein the power supply of the input circuit is connected to the power supply of the second power supply circuit and the output side of a unit that can turn on/off the power supply circuit. The microcomputer is connected in common to control power on/off of the first and second power supply circuits, thereby enabling self-diagnosis of the microcomputer and display of the diagnosis results. It is said that This will be explained below with reference to the drawings.

(Embodiment of the Invention) The figure shows the configuration of an embodiment of the present invention. In the figure, 1 is an in-vehicle electronic device, 2 is a battery, 3 is an ignition switch, 4 is a fuse, 5 is a microcomputer, and 6 is an in-vehicle electronic device. a first power supply circuit; 7 a second power supply circuit; 8 and 9 diodes; 10 an input circuit; 11 a diagnostic information storage device;
12 represents a control information storage device, 13 represents an output circuit, and 14 represents a display device.

As is generally well known, the illustrated in-vehicle electronic device 1 operates based on the contents of a control information storage device 12 in which control information such as backlash values and corrections for in-vehicle equipment is stored. , controls in-vehicle equipment such as the engine and transmission, as well as input circuit 1
The self-diagnosis of the microcomputer 5 is carried out based on the diagnosis start signal inputted by o, and the result (checked during control operation and stored in the diagnosis information storage device 11) is displayed via the output circuit 13. It has a diagnostic display function that is displayed on the device. In addition.

Needless to say, the diagnostic information storage device 11 has a function to erase the contents of the diagnostic information storage device 11 as necessary. And in order to fulfill each of the above functions.

The above microcomputer 5. The control power supply for the input circuit 1o and the diagnostic information storage device 11 is turned on and off as shown in Table 1 below. Note that the control power supply for the microcomputer 5 is the first one.
The control power for the diagnostic information storage device 11 is supplied by the first power supply circuit 6 and the second power supply circuit 6.
It is supplied by the power supply circuit 7 of. The first power supply circuit 6 is connected to the battery 2 via the ignition switch 3, and the second power supply circuit 7 and input circuit 10 are connected to the battery 2 via the fuse 4. Therefore, the above Igni.

By operating the switch 3 and attaching and detaching the fuse 4, the respective control power supplies can be turned on and off.

The table below shows the operation B of the microcomputer 5 and the retention/erasing status of the memory contents in the diagnostic information storage device 11, corresponding to the on/off states of the ignition switch 3 and the fuse 4. Note that the numbers 3, 4.5, and 11 in Table 1 correspond to the numbers in the figure, and Table 1 can be read as 1.For example, when the ignition switch 3 is turned off and the fuse 4 is installed, the microcomputer 5 is put into hibernation state 1 diagnostic information storage device 11
This indicates that the contents of the file remain preserved.

Table 1 Next, 2 Display of diagnostic contents performed in a state where the microcomputer 5 performs self-diagnosis and its contents are stored in the diagnostic information storage device 11 and the diagnostic information storage device 11 according to the present invention This section explains the operating procedure for erasing the contents of.

(1) First, turn on the ignition switch 3.

(2) Next, by removing fuse 4.

Display of diagnosis details begins.

(3) Next, by turning off the ignition switch 3, the contents of the diagnostic information storage device 11 are erased.

(4) Attach fuse 4.

Note that if the contents of the diagnostic information storage device 11 are not to be erased, the procedure of (11→(2)→(4)→(3)) above may be performed.

In the present invention, as shown in FIG.
Since power is commonly supplied to the second power supply circuit 7 via the fuse 4, only two wiring systems are required for supplying power to the in-vehicle electronic device 1, and the operation for performing a predetermined diagnostic display is simplified. becomes easier. In the two illustrated embodiments, power is supplied to the second power supply circuit 7 and the input circuit 10.

Although this is done via the fuse 4, it goes without saying that a switch may be used instead of the fuse 4.

(Effects of the Invention) As explained above, according to the present invention, in an on-vehicle electronic device that controls a vehicle and has a self-diagnosis function, the power supply wiring can be simplified.

It is possible to provide a diagnosis display method that allows the self-diagnosis results to be displayed with a simple operation.

[Brief explanation of drawings]

The figure shows the configuration of an embodiment of the present invention. In the figure, 1 is an in-vehicle electronic device, 2 is a buffer battery, 3 is an ignition switch, 4 is a fuse, 5 is a microcomputer, and 6 is a first power supply circuit. 7 is a second power supply circuit; 8 and 9 are diodes. 10 is an input circuit, 11 is a diagnostic information storage device, 12 is a control information storage device, 13 is an output circuit, and 14 is a display device.

Claims (1)

[Claims] A microcontroller that controls the vehicle and performs self-diagnosis processing.
a computer, a diagnostic information storage device in which diagnostic information is stored, an input circuit that inputs diagnostic/test signals to the microcomputer, a display device that displays diagnostic results,
The microcomputer is connected to the first power supply unit, and the diagnostic information storage device is connected to the first power supply unit. and a vehicle electronic device configured to be commonly connected to a second power supply circuit, wherein the power supply of the input circuit is connected to the power supply of the second power supply circuit and the output side of a unit that can turn on/off the power supply circuit. The microcomputer is connected in common to the first and second power supply circuits, and controls turning on and off of power to the first and second power supply circuits, thereby enabling self-diagnosis of the microcomputer and display of the diagnosis results. Diagnostic display method for in-vehicle electronic devices.