KR101500083B1 - Diagnostic method for multimedia device of vehicle - Google Patents

Abstract

The present invention relates to a method of diagnosing a multimedia device of a vehicle, and a main object of the present invention is to provide a more efficient and effective method of automatically diagnosing both a connection state and an operation state of a speaker and a microphone after in-line assembly of a multimedia device in a factory will be. According to an aspect of the present invention, there is provided a method of generating a diagnostic signal, the method comprising: generating a diagnostic signal having a predetermined frequency in an audible frequency band by a signal generator and transmitting the diagnostic signal via a diagnostic antenna; Receiving the diagnostic signal through a vehicle antenna with a multimedia device assembled in a vehicle; A controller of the multimedia device controls an output of a speaker in the vehicle and receives an acoustic signal output from the speaker through a microphone in the vehicle so that an acoustic output according to the received diagnostic signal is performed; And analyzing a frequency of an acoustic signal input through a microphone of the controller of the multimedia device to diagnose the presence or absence of a speaker and a microphone and outputting a diagnosis result.

Description

[0001] The present invention relates to a diagnostic method for a multimedia device,

The present invention relates to a method for diagnosing multimedia devices in a vehicle, and more particularly, to a more efficient and effective method for automatically diagnosing both a connection state and an operation state of a speaker and a microphone after in-line assembly of a multimedia device in a factory .

Today, with the rapid development of information and communication technology, various information communication related electronic devices are mounted in the vehicle, and the digital sound source that has been used for a long time is passed beyond the car audio having the playback function such as radio listening, tape, Multimedia devices that can be played back or multimedia devices that can play back various kinds of moving images are becoming common.

In addition to the basic functions such as radio and CD player, there are many functions that require higher performance than the basic performance applied in the development of the initial audio, such as digital sound processing, video output, navigation function, navigation, , A digital broadcasting processing function such as a satellite radio, a telematics function through a voice recognition, a wired / wireless hands-free function, and a smart phone.

Meanwhile, as the above-mentioned multimedia devices are mounted on vehicles, the quality inspection process required in a vehicle inspection line of a vehicle manufacturer is becoming more complicated, and a more efficient inspection method is required.

A typical automobile manufacturer diagnoses the connection state and operation state of an accessory device connected to a multidirectional media device, especially a speaker and a microphone, in a finished vehicle inspection line after an inline (factory) assembly of a multimedia device.

In addition, in the factory where the vehicle is assembled, the visual inspection of the multimedia device or the operation check of the special case is performed and the vehicle is shipped. In this process, the assembling error of the multimedia device or the component operation failure is not detected, There arises a problem that unnecessary costs are incurred and adversely affect the brand image.

In a conventional inspection method for a multimedia device at a vehicle assembly factory, it is necessary for the operator to determine whether a broadcast of the FM / AM band received through the vehicle antenna 1 is being outputted through the in-vehicle speaker 2 It is proceeding by simply checking through hearing test or the like, determining whether it is normal, and writing it on a recording sheet.

Alternatively, a diagnosis circuit is added to the audio system 3 to check whether the connection is short / open or not, and the resultant value is stored in the audio system 3. In response to a request from the external diagnostic device 4, Value is transmitted through OBD (On Board Diagnostics) 5 so that the error can be checked.

However, in the conventional inspection method, there is a problem that a cost increase occurs due to the addition of a diagnostic circuit, and a method of checking only the hardware connection state is lacking. As a result, there is no process of confirming the actual operation state. It is difficult to confirm the presence or absence of defects beforehand even in the case of using the parts.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a more efficient and effective method of automatically diagnosing both the connection state and the operation state of a speaker and a microphone after in-line assembly of a multimedia device in a factory, It has its purpose.

According to an aspect of the present invention, there is provided a method of generating a diagnostic signal, the method comprising: generating a diagnostic signal having a predetermined frequency in an audible frequency band by a signal generator and transmitting the diagnostic signal via a diagnostic antenna; Receiving the diagnostic signal through a vehicle antenna with a multimedia device assembled in a vehicle; A controller of the multimedia device controls an output of a speaker in the vehicle and receives an acoustic signal output from the speaker through a microphone in the vehicle so that an acoustic output according to the received diagnostic signal is performed; And analyzing a frequency of an acoustic signal input through a microphone of the controller of the multimedia device to diagnose the presence or absence of a speaker and a microphone and outputting a diagnosis result.

Accordingly, the method for diagnosing a multimedia device of the present invention is a method for determining the presence or absence of an abnormality by checking the actual speaker output through a microphone input. Therefore, there is an advantage that it is possible to automatically diagnose not only the wiring state but also the operation state, The assembly quality can be improved.

In addition, since there is no need to add a separate hardware configuration for checking whether a connection is made within the multimedia device, cost and cost can be reduced.

1 is a diagram for explaining a conventional diagnostic method.
2 is a view showing a diagnostic method according to the present invention and a diagnostic device for performing the diagnostic method.
3 is a diagram showing an example of analysis of frequency components in the diagnostic method according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains.

The present invention provides a more efficient and effective method for automatically diagnosing both the connection state and the operation state of a speaker and a microphone after in-line assembly of a multimedia device in a factory.

FIG. 2 is a view showing a diagnostic method according to the present invention and a diagnostic device for performing the same, and FIG. 3 is a diagram showing an example of analysis of a frequency component in the diagnostic method according to the present invention.

Referring to FIG. 2, a device element for performing the diagnostic process of the present invention is shown. After the multimedia device 12 is assembled in a vehicle, the connection states and the operation states of the speakers 13a to 13d and the microphone 14 are automatically A signal generator 21 for generating and outputting a specific frequency signal (hereinafter, referred to as a diagnostic signal) preset in the factory so as to be able to diagnose the frequency of the signal transmitted from the signal generator 21, (Not shown).

In the embodiment of the present invention, the signal generator 21 is preferably capable of generating and outputting a diagnostic signal of an audible frequency band (20 Hz to 20 kHz) so that diagnosis of the vehicle microphone 14 can be made.

The transmission unit 22 may be implemented as an antenna capable of transmitting a signal to the antenna 11 mounted on the vehicle (hereinafter referred to as a diagnostic antenna) Signal to the vehicle side.

The diagnosis unit 23 is connected to the vehicle through a wired connection, and the diagnostic unit 23 communicates with the control unit of the multimedia device 12 for diagnosis when the vehicle is connected to the vehicle.

A multimedia device (audio) 12 provided to be able to reproduce sound in a state of being assembled to a vehicle includes a speaker 13a to 13d to which sound is output and a microphone 14 to which a sound is input, ) Can be a hands-free microphone.

(Hereinafter, referred to as " vehicle antenna ") 11 for receiving an external frequency signal is mounted on an ordinary vehicle. In the diagnosis process of the present invention, the signal generator 21 generates a diagnostic signal Is transmitted through the diagnostic antenna (22), the vehicle antenna (11) receives it.

When the vehicle antenna 11 receives the diagnostic signal of the audible frequency band from the diagnostic antenna 22, the multimedia device 12 transmits the acoustic signal corresponding to the diagnostic signal received via the vehicle antenna 22 to the speakers 13a to 13d ).

The control unit (or head unit) of the multimedia device 12 performs the control process of the diagnosis mode through communication with the diagnostic unit 23. When the control unit receives a command for entering the diagnostic mode from the diagnostic unit The multimedia device enters the diagnostic mode.

At this time, the multimedia device 12 which has entered the diagnostic mode is tuned to a predetermined frequency (diagnostic signal frequency) (frequency tuning is performed so that radio waves can be received), and the signal generator 21 is connected to the diagnostic antenna 22 It is possible to receive a diagnostic signal to be transmitted through the network.

When the diagnostic signal of the signal generator 21 is received from the multimedia device 12 through the vehicle antenna 11 after entering the diagnostic mode, the sound of the specific frequency is output through the speakers 13a to 13d, (13a to 13d) through the speaker (14) and diagnoses whether the speaker and the microphone are abnormal.

Hereinafter, a process of diagnosing the connection state and operation state of the speaker and the microphone in such a device configuration will be described in more detail.

First, in the factory, the signal generator 21 is provided to transmit a predetermined signal (diagnostic signal) of a predetermined frequency, for example, a sine wave signal of 500 Hz is generated and transmitted through the diagnostic antenna 22.

When the assembled vehicle such as the multimedia device 12 enters the inspection process and the diagnostic device 23 is connected to the vehicle, the diagnostic device 23 sends a diagnostic command through the diagnostic communication with the multimedia device 12. [

Accordingly, the control unit of the multimedia device 12 receives the diagnostic command through communication, and eventually the multimedia device receiving the diagnostic command enters the diagnostic mode, and the diagnostic function is started according to the determined logic.

In a preferred embodiment, as a method for preventing the hearing loss of the operator due to the signal transmission in the audio frequency band as much as possible, it is possible to make a difference in the diagnostic process depending on whether speech recognition function is supported or not.

That is, when the controller of the multimedia device 12 receives the diagnostic command through the communication with the diagnostic device 23, it is set to check whether the voice recognition function is supported and start the diagnostic function accordingly, (A specific sound) stored in advance in the form of voice or the like is outputted through the speakers 13a to 13d.

In the multimedia device supporting the speech recognition function, the presence or absence of the specific command is determined by recognizing the specific command.

On the other hand, in the case of a multimedia device for which the speech recognition function is not supported, as described above, a diagnostic signal transmitted from the signal generator 21, that is, a sine wave signal of 500 Hz is used for diagnosis of the speakers 13a to 13d and the microphone 14 .

That is, when entering the diagnostic mode, the multimedia device 12 is tuned under the control of the control unit so as to receive the diagnostic signal transmitted from the signal generator 21, and then receives the diagnostic signal, And a sine wave sound signal of 500 Hz is output through the speakers 13a to 13d.

In order to diagnose whether or not each speaker 13a to 13d outputs sound, the output control for a plurality of speakers in the vehicle includes a driver's seat speaker 13a, a passenger's seat speaker 13b, a rear speaker 13c, And the speaker 13d behind the front passenger seat (rear right speaker) in this order.

When the output of the speaker is inputted to the microphone 14, the multimedia device 12 determines the connection state and the operation state of each speaker and the microphone through the volume measurement The diagnosis result is stored (failure code generation and storage), and the diagnosis result is transmitted to the diagnosis device upon receipt of the failure confirmation command from the diagnosis device 23. [

In the course of the diagnosis process according to the present invention, when the acoustic signals output from the speakers 13a to 13d are input through the microphone 14, the microphone input signal (analog signal) is digitally input through the codec And analyzes it as a frequency component to confirm whether or not a 500 Hz component is included.

After completing the analysis for each speaker, the control unit of the multimedia device 12 responds to the result request command (command for confirming whether there is a failure code) of the diagnostic unit 23 and transmits the diagnosis result. As a result, The diagnosis results of the speakers 13a to 13d and the microphone 14 can be confirmed.

As described above, in the present invention, since the actual speaker output is checked through the microphone input to determine whether there is an abnormality, there is an advantage that it is possible to collectively diagnose not only the wiring state but also the operation state.

In a preferred embodiment, the control unit of the multimedia device 12 analyzes the frequency component of the acoustic signal input through the microphone 14 and determines the amplitude of a predetermined frequency (frequency equal to the frequency of the diagnostic signal), for example, It may be set to check the amplitude to determine whether it is normal.

At this time, as shown in FIG. 3, the amplitude of the frequency component equal to the frequency of the diagnostic signal from the microphone input by each speaker output may be compared with the reference value. If the amplitude is above the reference value, .

If there is an error in some of the speakers in the vehicle, it can be determined that the connection or operation error of the corresponding speaker is established. If all the speakers are defective, the connection or operation error (primary fault information) (Second failure information).

The control unit of the multimedia device 12 generates fault information of wiring or operating error of the speaker when the number of the speaker is more than a certain number of speakers, And generates secondary fault information of operation error.

In addition, the determination reference value for the output sound of the speaker may be varied depending on the surrounding situation, such as when the noise of the ambient noise source is large, and the reference value set in the control unit of the multimedia device 12 may be separately defined It is preferable to be adjustable from outside the vehicle through a communication protocol.

In addition, since the frequency analysis of the microphone input may reduce the reliability of judgment due to the same frequency component mixed with the noise of the surrounding noise source, it is necessary to consider the ambient noise.

Therefore, in a preferred embodiment, the individual speaker outputs of the entire speakers 13a to 13d in the vehicle and the respective speaker outputs are controlled to mute states in which no sound is output for a predetermined time at each microphone input step, The frequency of the ambient noise input through the microphone 14 in the mute state is analyzed to confirm the amplitude (dB) of the same frequency component (the frequency component of the diagnostic signal), and after the mute state of the speaker output is released, 21 to be outputted through the respective speakers 13a to 13d.

If the difference between the amplitude (dB) of the frequency component equal to the frequency of the diagnostic signal and the amplitude of the mute state is equal to or greater than the reference value, the frequency of the acoustic signal input through the microphone 14 is analyzed If it is less than the reference value, it is judged that there is an abnormality.

Thus, according to the present invention, it is possible to automatically check the wiring connection state of the speaker and the microphone of the multimedia device, as well as the operation state, in the inspection process after assembling the vehicle, thereby improving the assembly quality of the vehicle.

In addition, since there is no need to add a separate hardware configuration for checking whether a connection is made within the multimedia device, cost and cost can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. Modified forms are also included within the scope of the present invention.

11: vehicle antenna 12: multimedia device
13a to 13d: Speaker 14: Microphone
21: Signal generator 22: Diagnostic antenna
23: Diagnostics

Claims (9)

(a) generating a diagnostic signal having a set frequency of an audible frequency band by a signal generator and transmitting the diagnostic signal via a diagnostic antenna;
(b) receiving the diagnostic signal through a vehicle antenna with a multimedia device assembled in a vehicle;
(c) a control unit of the multimedia device controls an output of a speaker in the vehicle and receives an acoustic signal output from the speaker through a microphone in the vehicle so that an acoustic output according to the received diagnostic signal is performed; And
(d) analyzing a frequency of an acoustic signal inputted through a microphone of the control unit of the multimedia device to diagnose an abnormality of a speaker and a microphone and outputting a diagnosis result;
Lt; / RTI >
The control unit of the multimedia device controls the speaker output to a mute state for a predetermined time after entering the diagnostic mode so that the microphone of the ambient noise is input. Then, the control unit of the multimedia device releases the mute state, Output, and microphone inputs,
When the difference between the amplitude of the frequency component equal to the frequency of the diagnostic signal after the mute state is released and the amplitude of the same frequency component of the mute state is equal to or greater than the reference value, Diagnostic method.

The method according to claim 1,
Wherein the diagnostic signal is a sinusoidal signal of a preset frequency.
The method according to claim 1,
Wherein the control unit of the multimedia device enters a diagnostic mode in which the steps (b), (c), and (d) are performed when a diagnostic command transmitted from the diagnostic device is received through communication with the external diagnostic device, And transmits the diagnostic result stored in step (d) to the diagnostic unit in response to the request command.
The method of claim 3,
Wherein the tuning of the multimedia device is performed so that a diagnostic signal of the signal generator is received after entering the diagnostic mode.
The method according to claim 1 or 3,
The control unit of the multimedia device checks whether the multimedia device supports the voice recognition function after entering the diagnostic mode. If the voice recognition function is not available, the control unit of the multimedia device performs steps (c) and (d) Wherein the step (d) is performed by causing the speaker to output a pre-stored sound instead of using the diagnostic signal when the voice recognition function is available.
The method according to claim 1 or 3,
The control unit of the multimedia device analyzes the frequency component of an acoustic signal inputted through a microphone and compares the amplitude of a frequency component equal to the frequency of the diagnostic signal with a preset reference value, The diagnosis is made that there is an abnormality in the speaker or the microphone.
delete The method according to claim 1,
Wherein the controller of the multimedia device controls sequential sound output to a plurality of speakers in the vehicle.
The method of claim 8,
The control unit of the multimedia device generates failure information of connection or operation error of the speaker when some of the speakers in the vehicle are abnormal, and if there is an error in all the speakers, And second failure information of all speaker connections or operation errors is generated.

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