KR100802587B1 - Vehicle can line diagnosis method - Google Patents

Abstract

The present invention relates to a method for diagnosing a can line for a vehicle, and in particular, by performing auto detection to detect whether a can communication module is mounted in a vehicle prior to the diagnosis of the can line after starting, and confirming whether the can communication module is mounted. If the can communication module is not installed, the can line diagnosis process is bypassed, and the auto detection result is stored in NVRAM for use at the next start-up, and the can communication module (ABS, After checking whether there is a response message from ACC, ASG, ITM, TCM, and TCS), PCU prevents can line diagnosis when at least one CAN communication module does not return even though there is at least one CAN communication module. The present invention relates to a method for diagnosing a can line for a vehicle to prevent a misdiagnosis that may occur due to the non-installation of a communication module.

Description

Can line diagnosis method for vehicles {CAN line diagnosis method}

1 is a flow chart showing a conventional method for diagnosing the can line for a vehicle.

Figure 2 is a flow chart showing a vehicle can line diagnostic method of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle can line diagnosis method, and more particularly, to a vehicle can line diagnosis method in which a PCU can prevent a misdiagnosis that may occur due to the non-installation of a can communication module.

Recently, due to the development of electronic control technology, various devices that have been operated by a mechanical method in automobiles are driven by an electric method due to driver convenience and driving stability.

For example, a transmission of a vehicle is a manual transmission that changes the driving speed and torque of a vehicle according to the driver's shift lever, and according to the driving conditions of the vehicle, not the driver's shift lever, a transmission control unit (TCU). Is replaced by an automatic transmission that changes the speed and torque of the car.

In addition, the braking device of the vehicle brakes the vehicle according to various driving information of the driving vehicle in addition to the driver's brake pedal manipulation through the ABS (anti brake system) that simply brakes the vehicle only by the driver's brake pedal operation. To improve the stability.

In addition, recently, in order to reduce the engine power and high fuel consumption, and to reduce the exhaust gas, in the GDI engine, in order to suppress the sudden fluctuation of the engine torque when the air-fuel ratio is changed, unlike the opening ratio of the throttle valve is adjusted according to the accelerator pedal operation of the conventional driver. The electronic throttle controller (ETC) regulates the intake air volume by controlling the throttle valve opening rate according to vehicle driving information.

In this manner, various can communication modules (ABS, ACC, ASG, ITM, TCM, TCS) are mounted on the vehicle to control various driving components of the vehicle.

The can communication module as described above communicates with a PCU (vehicle control device) that controls the overall operation of the vehicle through a can line in a CAN (Controller Area Network) manner to share information.

In a vehicle sharing information on a can line, it is very important whether communication between the PCU and the can communication module is normally performed.

That is, if an abnormality occurs in the can line between the PCU and the can communication module, the normal control of the vehicle may not be performed, which may cause a large accident.

Accordingly, when the vehicle is started, the PCU automatically diagnoses the can line and warns of an abnormality.

In the conventional can line diagnosis method, as shown in FIG. 2, the can ID described on the can specification is not detected at all while the PCU continuously monitors the CAN message transmitted from the can communication module after the engine is started. If not, it is determined that the can line is broken and U0001 DTC (display form of the can line error) is displayed.

However, the related art is a case in which a can communication module capable of can communication is not mounted in an actual vehicle, and therefore, if a can message is not received as a result of a can line diagnosis even though no abnormality has occurred in the vehicle, a can line failure occurs. There is a problem to judge and display warning.

Therefore, in order to solve the above problem, the present invention performs auto detection for detecting whether a can communication module is mounted in a vehicle prior to diagnosis of a can line after starting, and confirms whether the can communication module is mounted. If the can communication module is not installed, the can line diagnosis process is bypassed, and the auto detection result is stored in NVRAM for use at the next start-up, and the can communication module (ABS, ACC, After checking whether there is a response message from ASG, ITM, TCM, and TCS), PCU prevents can line diagnosis when at least one CAN communication module does not return even though there is at least one CAN communication module. The purpose of the present invention is to provide a method for diagnosing the can line of a vehicle so as to prevent the erroneous diagnosis that may occur due to no installation.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described.

According to the drawings, the present invention for achieving the object

According to claim 1,

Prior to the diagnosis of the can line after start-up, auto detection is performed to detect whether the can communication module is mounted in the vehicle through the can controller inside the PCU, and the can communication module is mounted through a reply from each can communication module. If it is determined whether the can communication module is not installed, the can line diagnostic process is bypassed.

According to claim 2,

The auto-detection result is stored in NVRAM for use at the next startup.

According to claim 3,

If there is at least one can communication module and there is no reply even after there is a response message from the can communication module (ABS, ACC, ASG, ITM, TCM, TCS) It is characterized in that the can line diagnosis is prohibited.

The most significant feature of the present invention, which is configured as described above, is to perform auto-detection before the PCU performs the can line diagnosis so that the can communication module is bypassed if the can communication module is not mounted. It is designed to prevent can line failure determination which can occur by performing can line diagnosis when it is not installed.

The operation of the present invention will be described as follows.

When the first vehicle starts up,

The PCU, which controls the overall operation of the vehicle, performs auto detection to detect whether the can communication module is currently installed in the vehicle. Auto detection refers to a function that automatically detects and checks whether a can communication module is mounted on a vehicle. In general, a PCU forms a can network through an internal can controller and checks a reply from each can communication module. It can be configured to automatically detect.

As a result of the auto detection, if the can communication module is not currently installed in the vehicle, the PCU bypasses the can line diagnosis process.

When the can line diagnosis is bypassed according to the auto detection result as described above, it is possible to prevent the display of the can line failure determined and displayed by the can line diagnosis performed when the can communication module is not currently installed in the vehicle. .

On the other hand, the result of the auto detection made at the first vehicle start is stored in the NVRAM is utilized from the next vehicle start.

In other words, when the next vehicle starts, the PCU utilizes the auto-detection result stored in NVRAM to bypass the can line diagnosis process when it is confirmed that the can communication module is not installed in the current vehicle.

In addition, if the auto detection indicates that at least one can communication module is installed in the vehicle, the PCU may determine from the can communication modules (ABS, ACC, ASG, ITM, TCM, TCS) before performing the can line diagnosis process. After checking whether there is a response message, and bypassing the diagnosis of the can line when at least one CAN communication module does not have a reply even though there is at least one CAN communication module.

Meanwhile, according to the application of the present invention, it is possible to reduce the ECU part number due to the addition of an option to a vehicle without any module using can communication.

However, when the can communication line is open, the can line diagnosis may be automatically performed, and in this case, a can line diagnosis error may occur.

As a countermeasure, the CAN Diagnosis Enable automatic learning addition method has been added, and the can communication module is installed in the actual vehicle, but the function of resetting to Hi-scan when the can communication line is incorrectly diagnosed is added. Thus, a plan that can be corrected before leaving the factory was prepared.

As described above, the present invention performs auto detection to detect whether the can communication module is mounted in the vehicle prior to the diagnosis of the can line after starting, and confirms whether the can communication module is mounted, and confirms the can as a result. If the communication module is not installed, the can line diagnosis process is bypassed, and the auto-detection result is stored in NVRAM for use at the next start-up, and the can communication module (ABS, ACC, ASG, ITM) can be used prior to the can line diagnosis. , TCM, TCS) checks whether there is a response message, and if at least one can communication module is present but one module does not reply, it can prohibit the diagnosis of can line. The effect of providing a vehicle can line diagnosis method can be expected to prevent a false diagnosis that may occur.

Claims (3)

Prior to the diagnosis of the can line after start-up, auto detection is performed to detect whether the can communication module is mounted in the vehicle through the can controller inside the PCU, and the can communication module is mounted through a reply from each can communication module. And confirming, and if the can communication module is not mounted, the can line diagnosis process is bypassed. The method of claim 1, And the auto-detection result is stored in NVRAM to be utilized at the next start-up. The method of claim 1, If there is at least one can communication module and there is no reply even after there is a response message from the can communication module (ABS, ACC, ASG, ITM, TCM, TCS) Can line diagnosis method for a vehicle, characterized in that to prohibit can line diagnosis.

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