JP7081462B2 - Vehicle electronic control device and diagnostic system - Google Patents

Description

The present disclosure relates to a vehicle electronic control device mounted on a vehicle and a diagnostic system including a vehicle electronic control device and an inspection tool.

Conventionally, OBD is known as a function of an in-vehicle electronic control device (that is, a vehicle electronic control device). OBD is an abbreviation for On-board Diagnostics. By this OBD, it is detected that some abnormality has occurred in various sensors, actuators, etc. in the vehicle, and a failure code corresponding to the abnormality is recorded. Hereinafter, the failure code is also referred to as DTC. DTC is an abbreviation for Diagnostic Trouble Code.

Further, in recent years, various maintenance work support devices that support vehicle maintenance work by using DTC have been proposed. For example, there is known an apparatus that acquires a DTC from a vehicle using an inspection tool (that is, a scan tool), diagnoses the state of the vehicle from the DTC, and performs necessary processing according to the diagnosis result. For example, see Patent Document 1 below.

Japanese Unexamined Patent Publication No. 2005-81849

The above-mentioned DTC indicates an abnormality such as the past of the vehicle. Therefore, in the future, for example, in the automobile inspection registration system (that is, vehicle inspection), it is conceivable to use this DTC for inspection of the condition of the vehicle, but sufficient examination is required.

Therefore, when the case where DTC is used for vehicle inspection is examined as shown below, the inventor of the present application has found that there are the following problems.
For example, among the DTCs, a predetermined DTC indicating a defect that does not satisfy the safety standards of the Road Transport Vehicle Law may be defined as a specific DTC, and if this specific DTC is read by an inspection tool, the vehicle inspection may be rejected. That is, if the specific DTC is stored in the vehicle electronic control device, it is conceivable that the vehicle inspection will be rejected.

Then, when performing a vehicle inspection as described above, the following system can be considered.
Information such as the specific DTC and its version (that is, the specific DTC information) is stored in the management server of the specific DTC management mechanism. Then, at the time of vehicle inspection, the management server is accessed in advance from the inspection tool to acquire and update the specific DTC information, and then the inspection tool inspects whether the specific DTC has occurred in the vehicle.

As an environment for using this inspection tool, for example, assuming a small maintenance factory, a stand-alone type that can be realized with a relatively inexpensive configuration that uses the inspection tool alone without being constantly connected to the management server is considered. Be done.

When this inspection tool is used as a stand-alone type, the specific DTC information stored in the inspection tool needs to be updated by accessing the management server, so that it is necessary to update it regularly.

However, if the specific DTC information is not updated for some reason, the vehicle inspection may not be performed accurately based on the latest specific DTC information. For example, when a vehicle inspection is performed based on old specific DTC information that is not the latest specific DTC information, a vehicle that originally fails the vehicle inspection may be passed.

One aspect of the present disclosure is to provide an electronic control device for a vehicle and a diagnostic system capable of suitably performing an inspection such as a vehicle inspection using the DTC.

a) One aspect of the present disclosure is a vehicle electronic control device (5) mounted on a vehicle (3), which is a storage unit (23), an acquisition unit (27), a determination unit (29), and a processing unit ( 31) and.
The storage unit stores the DTC, which is a failure code indicating an abnormality in the vehicle.

When the inspection tool (7) requests to read out the specific DTC, which is a specific failure code used for determining the state of the vehicle, the acquisition unit obtains the specific DTC information including the specific DTC from the inspection tool. The first time information indicating the last received time is acquired from the management server (9), and the second time information indicating the time of the read request is acquired.

The determination unit compares the time indicated by the first time information and the second time information, and determines whether or not the elapsed time, which is the time interval between the times indicated by both time information, is equal to or longer than the predetermined determination time.
The processing unit performs processing according to the result of the determination.

According to such a configuration, when there is a read request of the specific DTC from the inspection tool, the first time information and the second time information are acquired, and the elapsed time indicated by both time information is a predetermined determination. It is determined whether or not it is more than the time, and processing is performed according to the determination result.

Therefore, it is possible to determine whether or not the specific DTC information received from the management server is excessively old in consideration of time, so that appropriate processing can be performed according to the determination result.
For example, when the specific DTC information is old, for example, it is possible to request the inspection tool to update to the latest specific DTC information.

As a result, when the latest specific DTC information is updated, the state of the vehicle can be reliably determined. Therefore, it is possible to reliably determine whether or not the vehicle inspection has passed or failed.

b) Another aspect of the present disclosure is a diagnostic system (13) comprising a vehicle electronic control device and an inspection tool.
The vehicle electronic control device is mounted on the vehicle and stores a DTC which is a failure code indicating an abnormality of the vehicle.

The inspection tool receives and stores the specific DTC information including the specific DTC, which is a specific failure code used for determining the state of the vehicle among the DTCs, from the management server, and finally receives the specific DTC information from the management server. The first time information indicating the time when the work was done is stored.

Further, the vehicle electronic control device includes an acquisition unit, a determination unit, and a processing unit.
When there is a read request for the specific DTC from the inspection tool, the acquisition unit acquires the first time information from the inspection tool and the second time information indicating the time of the read request.

The determination unit compares the time indicated by the first time information and the second time information, and determines whether or not the elapsed time, which is the time interval between the times indicated by both time information, is equal to or longer than the predetermined determination time.
The processing unit performs processing according to the result of the determination.

According to such a configuration, the same effect as that of one aspect of the present disclosure described above can be obtained.
In addition, the reference numerals in parentheses described in this column and the scope of claims indicate the correspondence with the specific means described in the embodiment described later as one embodiment, and the technical scope of the present disclosure is defined. It is not limited.

The block diagram which shows the vehicle inspection system of 1st Embodiment. The block diagram which shows the vehicle electronic control apparatus of 1st Embodiment. The block diagram which shows the inspection tool of 1st Embodiment. The sequence diagram which shows the procedure of communication between the vehicle electronic control apparatus of 1st Embodiment, and an inspection tool. The flowchart which shows the processing of the inspection tool with respect to the management server of 1st Embodiment. The flowchart which shows the processing of the inspection tool with respect to the vehicle electronic control apparatus of 1st Embodiment. The flowchart which shows the processing of the vehicle electronic control device with respect to the inspection tool of 1st Embodiment. The flowchart which shows the processing of the inspection tool with respect to the vehicle electronic control apparatus of 2nd Embodiment. The flowchart which shows the processing of the vehicle electronic control device with respect to the inspection tool of 2nd Embodiment. The block diagram which shows the vehicle inspection system of 2nd Embodiment.

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings.
[1. First Embodiment]
[1-1. overall structure]
First, the entire system (that is, the vehicle inspection system) including the diagnostic system of the first embodiment will be described.

As shown in FIG. 1, the vehicle inspection system 1 in the first embodiment is an inspection electrically connected to an electronic control device (that is, a vehicle electronic control device) 5 mounted on a vehicle 3 and a vehicle electronic control device 5. It includes a tool 7 and a management server 9 connected to the inspection tool 7 via the Internet. In the following, the electronic control unit may be referred to as an ECU.

Here, an example in which the vehicle ECU 5 and the inspection tool 7 are connected by a cable 11 is given, but the vehicle ECU 5 and the inspection tool 7 may be connected wirelessly. The diagnostic system 13 is configured to include a vehicle ECU 5 and an inspection tool 7.

In the vehicle inspection system 1 described above, processing for vehicle inspection and the like are performed as follows.
First, among the DTCs that are failure codes indicating the abnormality of the vehicle 3, a predetermined DTC indicating a defect that does not satisfy the safety standard of the Road Transport Vehicle Law is defined as a specific DTC. Then, when this specific DTC is read from the vehicle ECU 5 by the inspection tool 7, the vehicle inspection is rejected.

That is, if the DTC provided with the safety standard is set as the specific DTC and the specific DTC is stored in the vehicle ECU 5, the vehicle inspection is rejected.
Specifically, the information such as the specific DTC and its version, that is, the specific DTC information which is the information related to the specific DTC is stored in the management server 9 of the specific DTC management mechanism. Then, at the time of vehicle inspection or the like, the management server 9 is accessed from the inspection tool 7, the specific DTC information is acquired and updated, and then the inspection tool 7 inspects whether the specific DTC has occurred in the vehicle 3. ..

The usage environment of the inspection tool 7 in the vehicle inspection system 1 is, for example, a stand-alone type in which the inspection tool 7 is used independently without being constantly connected to the management server 9, assuming a small maintenance shop. It is adopted.

When this inspection tool 7 is used as a stand-alone type, that is, when the inspection tool 7 alone is used to inspect the occurrence of a specific DTC, or when it is judged whether or not the vehicle inspection has passed or failed, the specific DTC information is inspected. It needs to be stored in the tool 7. Therefore, the specific DTC information needs to be updated by accessing the management server 9 as described later.

[1-2. Each configuration]
Next, each configuration of the diagnostic system 13 and the like according to the first embodiment will be described in detail.
<Vehicle electronic control device>
As shown in FIG. 2, the vehicle ECU 5 is an electronic control device centered on a microcomputer constituting the vehicle calculation processing unit 21, and some abnormality occurs in various sensors, actuators, etc. in the vehicle while the vehicle 3 is running. It has an OBD function to detect what has happened.

Specifically, the vehicle ECU 5 includes a vehicle calculation processing unit 21 that performs various calculations, a vehicle storage unit 23 that stores various data, a vehicle connector 25 that is a connection terminal to the outside, and the like. Although not shown, the vehicle calculation processing unit 21 is composed of a CPU, a ROM, a RAM, and the like. Further, a connector (not shown) at one end of the cable 11 is connected to the vehicle connector 25.

The vehicle storage unit 23 is a rewritable non-volatile memory such as a flash memory, and is configured to record a DTC corresponding to the abnormality when an abnormality of the vehicle 3 is detected.

The vehicle calculation processing unit 21 has a vehicle acquisition unit 27, a vehicle determination unit 29, and a vehicle processing unit 31 as a functional configuration realized by the CPU executing a program.
When the vehicle acquisition unit 27 receives a request from the inspection tool 7 to read out a specific failure code (that is, a specific DTC) used for determining the state of the vehicle among the DTCs, the vehicle acquisition unit 27 specifies the specific DTC including the specific DTC from the inspection tool 7. The first time information (for example, the first time stamp) indicating the time when the DTC information was last received from the management server 9 is acquired. At the same time, the second time information (for example, the second time stamp) indicating the time of the read request is acquired based on the time information by the timer (not shown).

As is well known, the time stamp is a record indicating that the electronic data existed at a certain time (here, the time of the last reception or the time of the read request).

In addition to the specific DTC, the specific DTC information includes, for example, version information of the specific DTC information, vehicle information regarding the type of vehicle 3 subject to vehicle inspection, ECU information regarding the ECU mounted on the vehicle 3, and a communication protocol. , Definition of specific DTC and the like.

The vehicle determination unit 29 compares the timing indicated by the first timing information and the second timing information, and determines whether or not the elapsed time, which is the time interval between the timings indicated by both timing information, is equal to or longer than the predetermined determination time. do.
Examples of the first time information and the second time information include the first time stamp and the second stamp indicating the time itself. Further, as the first time information, the information of the update time when the specific DTC information is updated, that is, the first time stamp indicating the update time, and / or the version information of the specific DTC information which can specify the update time, etc. are unique. Information is given.

The vehicle processing unit 31 performs the following processes (1) and (2) according to the result of the above-mentioned determination. That is, the processing content is changed according to the determination result, and the necessary processing is performed.
(1) For example, when the elapsed time is longer than the determination time, the inspection tool 7 is requested to update the specific DTC information.

Alternatively, if the elapsed time is longer than the determination time, a negative response for rejecting the read request may be transmitted or no response may be made.
(2) When the elapsed time is less than the determination time, the specific DTC or the DTC including the specific DTC (for example, all DTCs) is transmitted to the inspection tool 7.

Then, the transmission information indicating the transmitted information and the transmission time information indicating the transmission time of the transmitted information are stored in the vehicle storage unit 23.
The vehicle ECU 5 is configured so that the transmission information and the transmission timing information can be read by an external request such as an inspection tool 7.

<Inspection tool>
As shown in FIG. 3, the inspection tool 7 can be manually operated by a display 33 that displays various displays, a tool electronic control device (that is, a tool ECU) 35 that controls the operation of the inspection tool 7, and an operator. The operation unit 37, the tool communication unit 39 that communicates with the management server 9, and the tool connector 41 to which the connector 12 (see FIG. 1) at the other end of the cable 11 is connected are provided.

The tool ECU 35 includes a tool calculation processing unit 43 that performs various calculations and a tool storage unit 45 that stores various data.
Although not shown, the tool calculation processing unit 43 is composed of a CPU, a ROM, a RAM, and the like. The tool calculation processing unit 43 controls, for example, the management server 9 to request and acquire the specific DTC information, and the vehicle ECU 5 to request and acquire the specific DTC to be transmitted. conduct.

The tool storage unit 45 is a rewritable non-volatile memory such as a flash memory, and stores the specific TDC information acquired from the management server 9 and the first timing information for which the specific TDC information was last received. It is configured. Further, it is configured to store the specific DTC acquired from the vehicle ECU 5.

The tool communication unit 39 is a communication device that wirelessly communicates with the management server 9 via the Internet. The tool communication unit 39 is not normally connected to the management server 9, but is connected to the management server 9 when necessary by an operator's operation, and for example, the latest specific DTC information is downloaded.

That is, the inspection tool 7 is a stand-alone type, and is used offline instead of being connected to the management server 9 at all times online.
The various functions of the vehicle ECU 5 and the tool ECU 35 are realized by the CPU executing a program stored in a non-transitional substantive recording medium. In this example, the vehicle storage unit 23 and the tool storage unit 45 correspond to a non-transitional substantive recording medium in which a program is stored. In addition, when this program is executed, the method corresponding to the program is executed. The vehicle ECU 5 and the tool ECU 35 may each be composed of one microcomputer or a plurality of microcomputers.

Further, the method for realizing each process executed by the vehicle ECU 5 and the tool ECU 35 is not limited to software, and one or all of the functions thereof may be realized by using one or a plurality of hardware. For example, when the above function is realized by an electronic circuit which is hardware, the electronic circuit may be realized by a digital circuit including a large number of logic circuits, an analog circuit, or a combination thereof.

[1-3. Control processing]
First, the outline of the processing performed in the vehicle inspection system 1 will be described.
As shown in FIG. 4, for example, at the time of vehicle inspection, (A) a specific DTC read request and (B) specific DTC information are finally received from the management server 9 from the inspection tool 7 to the vehicle ECU 5. And send the time information of.

When the vehicle ECU 5 receives the read request of the specific DTC from the inspection tool 7, the first time information transmitted from the inspection tool 7 is acquired, and the time of the read request of the specific DTC is the current time from the timer. Get the time information of 2.

Further, the vehicle ECU 5 determines whether or not the elapsed time of the time indicated by the first time information and the second time information is equal to or longer than the determination time. Then, when the determination time is longer than the determination time, the inspection tool 7 is requested to (C) update the specific DTC information.

When the inspection tool 7 receives a request for updating the specific DTC information from the vehicle ECU 5, the inspection tool 7 notifies the contents thereof. For example, the display 33 indicates that the request is made, or the operator is notified that the request is made by sound, voice, or the like.

When the operator recognizes that there is a request for updating the specific DTC information from the vehicle ECU 5 by the above-mentioned notification, he / she operates the inspection tool 7 to download the latest specific DTC information from the management server 9. The specific DTC information is updated and stored.

Therefore, after that, the above-mentioned processes (A) and (B) are performed again using the inspection tool 7.
On the other hand, when the elapsed time is less than the determination time, it is considered that the specific DTC information is the latest, and the vehicle ECU 5 transmits, for example, all the DTCs including (D) the specific DTC to the inspection tool 7. Perform the processing.

Therefore, the inspection tool 7 that has received all the DTCs including the specific DTC inspects the presence or absence of the specific DTC, displays the inspection result on the display 33, for example, and stores it in the tool storage unit 45.

Next, the processes performed by the vehicle ECU 5 and the inspection tool 7 will be specifically described.
<Processing in inspection tool>
(A) Processing of the inspection tool 7 for the management server 9 In the inspection tool 7, as shown in FIG. 5, in step 100, the management server 9 is requested to update the specific DTC information by the operation by the operation unit 37. .. In FIG. 5, the step is referred to as S. Hereinafter, the same applies to each figure.

In the following step 110, the updated specific DTC information is acquired from the management server 9. That is, the latest specific DTC information is downloaded.
In the following step 120, the updated specific DTC information and the first time information (that is, the first time stamp) indicating the time when the specific DTC information is received are stored in the tool storage unit 45, and this process is once performed. To finish.

(B) Processing of the inspection tool 7 for the vehicle ECU 5 In the inspection tool 7, as shown in FIG. 6, in step 200, the vehicle ECU 5 is requested to acquire the specific DTC.

Further, in step 210, the first timing information is transmitted to the vehicle ECU 5.
In the following step 220, it is determined whether or not there is a request for updating the specific DTC information from the vehicle ECU 5. If an affirmative judgment is made here, the process proceeds to step 230, while if a negative judgment is made, the process proceeds to step 240.

In step 230, since there is a request to update the specific DTC information, this is notified and the present process is temporarily terminated. For example, the display 33 indicates that there is an update request, or the display 33 notifies the effect by voice or the like.

On the other hand, in step 240, since there is no request to update the specific DTC information, it is considered that the specific DTC information is the latest, and the specific DTC transmitted from the vehicle ECU 5 is acquired.
Here, the vehicle ECU 5 sets the specific DTC when the determination condition for transmitting the specific DTC described later (that is, the condition less than the determination time of S330) is satisfied when the acquisition request of the specific DTC is made. All DTCs including are transmitted, but only a specific DTC may be transmitted. For example, when making a request for acquisition of a specific DTC, what kind of DTC may be transmitted, such as "only the specific DTC" or "all DTCs including the specific DTC", may be specified.

In the following step 250, it is inspected whether or not the DTC acquired from the vehicle ECU 5 has a specific DTC.
In the following step 260, the inspection result is notified. For example, when there is a specific DTC, the specific DTC and its definition are displayed on the display 33 or notified by voice or the like. Furthermore, it may be notified that the vehicle inspection has failed.

Further, when there is no specific DTC, the display 33 indicates that there is no specific DTC, or the user is notified by voice or the like. Furthermore, it may be notified that the vehicle inspection has passed.
<Processing in vehicle electronic control device>
In the vehicle ECU 5, as shown in FIG. 7, in step 300, it is determined from the inspection tool 7 whether or not there is a read request for the specific DTC. If an affirmative judgment is made here, the process proceeds to step 310, while if a negative judgment is made, the present process is temporarily terminated.

In step 310, the first time stamp, which is the first time information, is acquired from the inspection tool 7.
In the following step 320, a second time stamp, which is the second time information which is the current time, is acquired from its own timer.

In the following step 330, the elapsed time, which is the time interval between the time indicated by the first time information and the time indicated by the second time information, is obtained, and whether this elapsed time is equal to or longer than the predetermined determination time (for example, one month). Judge whether or not. If an affirmative judgment is made here, the process proceeds to step 340, while if a negative judgment is made, the process proceeds to step 350.

In step 340, since the elapsed time is long, it is considered that the specific DTC information is not the latest, and the inspection tool 7 is requested to update the specific DTC information, and this process is temporarily terminated.

On the other hand, in step 350, it is considered that the elapsed time is short and the specific DTC information is the latest, and all the DTCs including the specific DTC are transmitted to the inspection tool 7. It should be noted that only the specific DTC may be transmitted.

In the following step 360, the vehicle storage unit 23 stores the first time information, the second time information, the information transmitted to the inspection tool (that is, the transmission information), and the transmission time information indicating the time when the transmission information is transmitted. This process is terminated once.

[1-4. effect]
In the first embodiment, the following effects can be obtained.
(1a) In the first embodiment, when a read request for the specific DTC is received from the stand-alone type inspection tool 7, the first time information and the second time information are acquired, and both time information indicates. It is determined whether or not the elapsed time is equal to or longer than the predetermined determination time.

By this determination, even when the stand-alone inspection tool 7 is used, it can be known whether or not the specific DTC information received from the management server 9 is old (that is, not the latest version) in terms of time. Therefore, it is possible to take appropriate measures according to the determination result.

For example, when the specific DTC information is old, it is possible to request the inspection tool 7 to update to the latest specific DTC information.
As a result, when the worker updates to the latest specific DTC information, the state of the vehicle 3 can be reliably determined based on the latest specific DTC information. Therefore, it is possible to reliably determine whether or not the vehicle inspection has passed or failed.

(1b) Further, in the first embodiment, when the elapsed time is equal to or longer than the determination time, a negative response for rejecting the read request may be transmitted. Alternatively, no response may be made without sending a negative response.

Even with such a negative response or no response, the worker can know whether the specific DTC information received from the management server 9 is old, and can take appropriate measures thereafter.
That is, in the case of a negative response or no response, the update to the latest specific DTC information can be performed by regarding the same as the request for updating to the latest specific DTC information.

[1-5. Correspondence of words]
In the first embodiment, the vehicle 3 corresponds to the vehicle, the vehicle electronic control device 5 corresponds to the vehicle electronic control device, the inspection tool 7 corresponds to the inspection tool, the diagnostic system 13 corresponds to the diagnostic system, and the vehicle corresponds to the vehicle. The storage unit 23 corresponds to the storage unit, the vehicle acquisition unit 27 corresponds to the acquisition unit, the vehicle determination unit 29 corresponds to the determination unit, and the vehicle processing unit 31 corresponds to the processing unit.

[2. Second Embodiment]
[2-1. Differences from the first embodiment]
The differences between the second embodiment and the first embodiment will be described below. It is the same as the first embodiment except for the difference. Further, the same reference numerals are given to the configurations similar to those of the first embodiment.

In the second embodiment, the inspection tool 7 reads out the specific DTC-related information stored in the vehicle ECU 5, and verifies the validity of the OBD inspection.
Here, the specific DTC-related information is DTC information (that is, transmission information) that has responded to the inspection tool 7 in the past, and a time stamp (that is, transmission timing information) at that time. Further, the legitimacy of the OBD test is the legitimacy of the test using the specific DTC. In other words, it is the legitimacy of the vehicle inspection using the specific DTC.

Hereinafter, it will be described in detail.
<Processing of inspection tools>
In the inspection tool 7, as shown in FIG. 8, in step 400, the vehicle ECU 5 is requested to have the specific DTC-related information stored in the vehicle storage unit 23.

In the following step 410, the specific DTC-related information transmitted from the vehicle ECU 5 is acquired in response to the request for the specific DTC-related information.
In the following step 420, the validity of the OBD inspection is verified, and this process is once performed.

As the content of verification of the validity of this OBD inspection, for example, confirmation of the presence or absence of a specific DTC and display of the confirmation result can be mentioned. The validity of the OBD test may be verified manually.

<Processing of vehicle electronic control device>
In the vehicle ECU 5, as shown in FIG. 9, in step 500, it is determined from the inspection tool 7 whether or not there is a request for specific DTC-related information. If an affirmative judgment is made here, the process proceeds to step 510, while if a negative judgment is made, the present process is temporarily terminated.

In step 510, the specific DTC-related information is transmitted to the inspection tool 7, and this process is temporarily terminated.
[2-2. effect]
In the second embodiment, in addition to the effects (1a) and (1b) of the first embodiment, there is an advantage that it is possible to verify at a later date whether or not the vehicle inspection carried out using the inspection tool 7 is appropriate.

[3. Third Embodiment]
Since the third embodiment is basically the same as the first embodiment, the differences will be mainly described below. It is the same as the first embodiment except for the difference. Further, the same reference numerals are given to the configurations similar to those of the first embodiment.

As shown in FIG. 10, the vehicle inspection system 1 of the third embodiment includes an inspection tool 7, a vehicle electronic control device 5, a personal computer 51, and a management server 9.
The inspection tool 7 does not include the tool communication unit as in the first embodiment, but includes a connector 55 connected to the cable 53. The cable 53 connects the personal computer 51 and the inspection tool 7 by wire, but may be connected wirelessly.

The personal computer 51 is configured to connect to the management server 9 via the Internet. Therefore, by operating the personal computer 51, the specific DTC information can be downloaded from the management server 9 to the personal computer 51. Further, the specific DTC information can be transmitted from the personal computer 51 to the inspection tool 7 and the specific DTC information can be stored in the inspection tool 7.

As described above, in the third embodiment, the inspection tool 7 is not provided with the tool communication unit, but communicates with the management server 9 by using an external communication device (that is, a personal computer 51) having the function of the tool communication unit. .. That is, the external communication device and the inspection tool 7 are connected by wire or wirelessly so as to function in the same manner as the inspection tool 7 of the first embodiment.

The third embodiment has the same effect as that of the first embodiment. Further, there is an advantage that the inspection tool 7 can be simplified.
In addition, instead of the personal computer 51, a terminal that can connect to the Internet, such as a smartphone, can be adopted. That is, as an external communication device, a communication terminal such as a smartphone can be adopted.

[4. Other embodiments]
Although the embodiments of the present disclosure have been described above, the present disclosure is not limited to the above-described embodiments, and can be variously modified and implemented.

(1) In the above embodiment, the inspection tool is used to perform the inspection of the specific DTC and the pass / fail judgment of the vehicle inspection, but an application capable of realizing the same function as the inspection tool on a communication terminal such as a smartphone or a personal computer is provided. It may be stored so that a communication terminal such as a smartphone, a personal computer, or the like has a function similar to that of the inspection tool of the above embodiment.

(2) Further, when a well-known VCI is connected to the port of the connector of the vehicle ECU, the above-described embodiment is configured by configuring an inspection tool, a communication terminal such as a smartphone, a personal computer, etc. so as to communicate with the VCI. The same effect as can be obtained. VCI is an abbreviation for Vehicle Communication Interface.

(3) A plurality of functions possessed by one component in the embodiment may be realized by a plurality of components, or one function possessed by one component may be realized by a plurality of components. .. Further, a plurality of functions possessed by the plurality of components may be realized by one component, or one function realized by the plurality of components may be realized by one component. Further, a part of the configuration of the above embodiment may be omitted. Further, at least a part of the configuration of the above embodiment may be added or replaced with the configuration of the other above embodiment.

(4) In addition to the above-mentioned electronic control devices, a system having the electronic control device as a component, a program for operating a computer as the electronic control device, a semiconductor memory in which this program is recorded, and the like are non-transitional actual conditions. The present disclosure can also be realized in various forms such as a recording medium and an electronic control method.

3: Vehicle, 5: Vehicle electronic control device, 7: Inspection tool, 13: Diagnostic system, 23: Vehicle storage unit, 27: Vehicle acquisition unit, 29: Vehicle determination unit, 31: Vehicle processing unit

Claims (8)

It is a vehicle electronic control device (5) mounted on the vehicle (3).
A storage unit (23) configured to store the DTC, which is a failure code indicating an abnormality of the vehicle, and a storage unit (23).
When the inspection tool (7) requests to read out the specific DTC, which is a specific failure code used for determining the state of the vehicle among the DTCs, the inspection tool obtains the specific DTC information including the specific DTC. An acquisition unit (27) configured to acquire the first timing information indicating the last reception time from the management server (9) and the second timing information indicating the timing of the read request.
It is configured to compare the time indicated by the first time information and the second time information, and determine whether or not the elapsed time, which is the time interval of the time indicated by both time information, is equal to or longer than the predetermined determination time. Judgment unit (29)
A processing unit (31) that performs processing according to the result of the determination, and
Equipped with a vehicle electronic control device. The vehicle electronic control device according to claim 1.
When the elapsed time is equal to or longer than the determination time, the inspection tool is configured to request the update of the specific DTC information.
Vehicle electronic control device. The vehicle electronic control device according to claim 1.
When the elapsed time is equal to or longer than the determination time, a negative response for rejecting the read request is transmitted or no response is made.
Vehicle electronic control device. The vehicle electronic control device according to any one of claims 1 to 3.
When the elapsed time is less than the determination time, the specific DTC or the DTC including the specific DTC is configured to be transmitted to the inspection tool.
Vehicle electronic control device. The vehicle electronic control device according to claim 4.
It is configured to store the transmission information indicating the transmitted information and the transmission time information indicating the transmission time of the transmitted information.
Vehicle electronic control device. The vehicle electronic control device according to claim 5.
The transmission information and the transmission timing information are configured to be readable by an external request.
Vehicle electronic control device. The vehicle electronic control device according to any one of claims 1 to 6.
As the first time information, information on the update time when the specific DTC information is updated and / or unique information capable of specifying the update time are used.
Vehicle electronic control device. A vehicle electronic control device mounted on the vehicle and configured to store a DTC which is a failure code indicating an abnormality of the vehicle.
Among the DTCs, the specific DTC information including the specific DTC which is a specific failure code used for determining the state of the vehicle is received and stored from the management server, and the specific DTC information is finally received from the management server. An inspection tool and an inspection tool configured to store the first time information indicating the time.
Equipped with
The vehicle electronic control device is
When there is a read request for the specific DTC from the inspection tool, the inspection tool is configured to acquire the first timing information and the second timing information indicating the timing of the read request. With the acquisition department,
It is configured to compare the time indicated by the first time information and the second time information, and determine whether or not the elapsed time, which is the time interval of the time indicated by both time information, is equal to or longer than the predetermined determination time. Judgment unit and
A processing unit that performs processing according to the result of the determination, and
A diagnostic system with.

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