KR101573771B1 - Apparuts for fault diagnosis of microphone for a vehicle - Google Patents

Abstract

The present invention relates to a fault diagnosis apparatus for a vehicle microphone, and more particularly, to a fault diagnosis apparatus for a vehicle microphone which has a first bias voltage for driving a microphone from an external voltage source and a voltage level different from the voltage level of the first bias voltage A microphone diagnosis unit receiving a second bias voltage and applying the second bias voltage to the microphone in response to a switching signal in a failure diagnosis mode of the microphone; And a microcomputer for providing a signal to the microphone diagnosis unit, detecting a voltage level of the second bias voltage provided from the microphone diagnosis unit, and determining whether the microphone is faulty or not according to a detection result.

Description

TECHNICAL FIELD [0001] The present invention relates to a micro-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a fault diagnosis apparatus for a vehicle microphone, and more particularly, to a fault diagnosis apparatus for a vehicle microphone capable of diagnosing a fault state of a multimedia microphone.

In general, a vehicle microphone is provided with a head unit microphone or a telematics microphone which allows a user to make a call even when the user does not carry the mobile phone directly in order to reduce the risk of accident caused by the use of the mobile phone while the driver is driving have. In recent years, fines are imposed on the use of mobile phones while driving, and the use of handsfree has been enacted as a law, and most vehicles are equipped with microphones.

Such a vehicle microphone amplifies a voice signal received by a mobile phone, for example, with a speaker or an earphone, and transmits the amplified voice signal to a driver.

However, a device for diagnosing a fault condition of a vehicle microphone has not yet been developed. Therefore, it is urgent to develop a device for diagnosing a fault condition of a vehicle microphone.

Accordingly, it is an object of the present invention to provide a fault diagnosis apparatus for a vehicle microphone capable of diagnosing a fault condition of a vehicle microphone.

In order to achieve the above object, a fault diagnosis apparatus for a vehicle microphone includes a microphone diagnosis unit and a microcomputer. Wherein the microphone diagnosis unit receives a first bias voltage for driving the microphone from an external voltage source and a second bias voltage having a voltage level different from the voltage level of the first bias voltage for determining whether the microphone is faulty, In the failure diagnostic mode of the microphone, the second bias voltage is applied to the microphone in response to the switching signal. The microcomputer generates the switching signal and provides the switching signal to the micro diagnosis unit, detects the voltage level of the second bias voltage provided from the micro diagnosis unit, .

According to the present invention, a failure diagnosis of a microphone that can be generated on a field can be confirmed through the engineering mode of the external diagnostic equipment or the multimedia head unit (Head Unit). Therefore, it is possible to identify the cause of the failure sufficiently without disconnecting the units linked with the microphone from the vehicle.

FIG. 1 is a block diagram illustrating an apparatus for diagnosing a malfunction of a vehicle according to an exemplary embodiment of the present invention. Referring to FIG.
2 is a schematic circuit diagram showing an example of the internal configuration of the microphone diagnosis unit shown in FIG.
3 is a circuit diagram realizing an example of the internal configuration of the microphone diagnosis unit shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating an apparatus for diagnosing a malfunction of a vehicle according to an exemplary embodiment of the present invention. Referring to FIG.

Referring to FIG. 1, an apparatus for diagnosing a malfunction of a vehicle according to an embodiment of the present invention includes a microphone (MIC) diagnosis unit 200 and a microcomputer 300, and further includes a microphone 100.

The microphone 100 includes a microphone used for a head unit used in speech recognition or Bluetooth, and a microphone used for telematics for telephone conversation.

The microphone diagnosis unit 200 is connected to a microphone for voice recognition, a Bluetooth communication, and a telematics communication according to a switching operation, and performs a diagnosis of a correspondingly connected microphone. More specifically, the microphone diagnosis unit 200 is connected to the positive terminal MIC + and the negative terminal MIC- of the microphone 100, and generates a first bias voltage for driving the microphone 100, A second bias voltage having a voltage level different from the voltage level of the first bias voltage is input from an external voltage source (not shown) to determine whether the microphone is malfunctioning. In particular, the micro diagnosis unit applies the second bias voltage to the microphone in response to a switching signal transmitted from the microcomputer 300 in a failure diagnosis mode of the microphone 100. [

The microcomputer 300 controls the overall operation of the fault diagnosis apparatus according to an exemplary embodiment of the present invention. The microcomputer 300 generates the switching signal in the failure diagnosis mode of the microphone 300 and outputs the switching signal to the diagnostic control 2-EA port 32, To the microphone diagnosis unit (200). At this time, the microcomputer 300 receives the voltage level of the second bias voltage supplied from the microphone diagnosis unit 200 through the ADC 1-EA port 31 in the failure diagnosis mode. An analog-to-digital converter (ADC) 310 is provided in the microcomputer 300 to sense the second bias voltage output through the port 31 via the microphone 100 Converts the analog voltage into a digital voltage, and detects the failure of the microphone 100 according to the detected voltage level of the digital voltage. For example, when the microcomputer detects a second bias voltage of approximately 0 V, it determines that an abnormality has occurred in the microphone 100.

FIG. 2 is a view showing an example of the internal configuration of the microphone diagnosis unit shown in FIG. 1. FIG.

2, the microphone diagnosis unit 200 includes an analog switching circuit unit 210, positive / negative terminals 220A and 220B for a head unit, positive and negative terminals 230A and 230B for telematics, And positive / negative terminals 240A and 240B for diagnosis.

The analog switching circuit unit 210 responds to a switching signal transmitted through the diagnostic control 2-EA port 32 (shown in FIG. 1) of the microcomputer 300 to connect positive and negative terminals for the head unit And the positive / negative terminals 230A and 230B for the telematics and the positive and negative terminals of the microphone among the microphone diagnosis positive and negative terminals 240A and 240B.

A first bias voltage provided from an external voltage source is applied to the positive terminal 220A for the head unit and a ground voltage (for example, 0 V) provided from the external voltage source is applied to the negative terminal 220B. The first bias voltage is similarly applied to the telematics positive terminal 230A and the ground voltage is applied to the negative terminal 230B. A second bias voltage is applied to the microphone diagnostic positive terminal 240A and a ground voltage is applied to the negative terminal 240B. Here, the first bias voltage is a bias voltage for driving the microphone 100, and the second bias voltage is a voltage for diagnosing a malfunction of the microphone. Preferably, the first and second bias voltages each have a different voltage level, and preferably the second bias voltage is higher than the first bias voltage, and at least the second bias voltage is higher than the first bias voltage. It is preferable to be 0.5 V higher than the bias voltage. The second bias voltage is a voltage for determining whether or not the microphone is faulty and may be different from the first bias voltage. However, when noise is introduced into the ground, that is, when ripple occurs on the ground side, The second bias voltage is preferably higher than the first bias voltage and is designed to have a difference of 0.5 V or more in the present embodiment.

On the other hand, in the present embodiment, the first bias voltage is set to about 2.25 V and the second bias voltage is set to about 2.8 V, but according to the design, the second bias voltage is set to a voltage higher than about 2.8 V, .

Hereinafter, the operation of the microphone diagnosis unit will be described.

First, when the malfunction diagnosis mode of the microcomputer 300 is set by the microcomputer 300, that is, when the switching signal is provided from the microcomputer 300, the switching operation of the analog switching circuit unit 210 causes the positive terminal MIC + And the negative terminal MIC- are electrically connected to the microphone diagnostic positive terminal 240A and the negative terminal 240B, respectively. Accordingly, a second bias voltage of 2.80 V is applied to the positive terminal MIC + of the microphone 300. At this time, when the connection state of the microphone 300 is normal, a second bias voltage of 2.80 V is fed back to the negative terminal MIC- of the microphone 300 by the current flow by the second bias voltage )do. If the connection state of the microphone 300 is abnormal, 0 V is fed back to the negative terminal MIC- of the microphone 300.

As a result, when the microcomputer 300 detects the second bias voltage of 2.8 V, it determines that the microphone 100 is in the normal state and detects the second bias voltage of about 0 V, thereby determining the abnormal state.

As described above, the vehicle fault diagnosis apparatus according to an embodiment of the present invention can detect the voltage level of the second bias voltage and perform various types of fault diagnosis according to the detected result. For example, the vehicle fault diagnosis apparatus can perform a connection / disconnection state of a microphone, an operation state of an analog switching circuit unit, a switching state of a microphone, and the like. That is, when performing a failure diagnosis on the connected / disconnected state of the microphone among the fault diagnosis items, the second bias voltage of 2.80 V applied to the positive terminal (MIC +) of the microphone is applied to the ADC 1- EA port 31, it is determined that the connection state of the microphone 300 is normal. If the voltage detected by the port 31 is approximately 0 V, it is determined that the connection state is abnormal. That is, it is judged that it is not connected. When the second bias voltage of 2.80 V is checked in the diagnostic mode of the microphone 300, the switching operation of the analog switching circuit unit 210 is performed It is judged as normal. When the malfunction diagnosis for the switching state of the microphone 300 is performed, whether or not the microphone 300 is connected to the line for the head unit or the line for the telematics, the state of the diagnostic control 2-EA port 32 .

3 is a circuit diagram realizing an example of the internal configuration of the microphone diagnosis unit shown in FIG.

The circuit configuration shown in FIG. 3 will be fully understood by those skilled in the art through the description of each configuration included in the microphone diagnosis unit shown in FIG. 2, and a detailed description thereof will be omitted.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description, and all changes or modifications derived from the appended claims and their equivalents should be construed as being included within the scope of the present invention.

Claims (7)

A first bias voltage for driving the microphone from an external voltage source and a second bias voltage having a voltage level different from the voltage level of the first bias voltage for determining whether the microphone is faulty, A microphone diagnostic unit for applying the second bias voltage to the microphone in response to a switching signal; And
And a control unit for controlling the micro diagnosis unit to detect a voltage level of the second bias voltage provided from the microphone diagnosis unit and to determine whether the microphone is malfunctioning or not, Including a microcomputer,
The micro-
A positive / negative terminal for the head unit to which the first bias voltage and the ground voltage are respectively applied;
A positive / negative terminal for telematics receiving the first bias voltage and the ground voltage;
A microphone diagnostic positive / negative terminal receiving the second bias voltage and the ground voltage; And
A positive / negative terminal for the head unit, a positive / negative terminal for the telematics, and an analog switching circuit part for selectively connecting the positive / negative terminal of the microphone among the positive and negative terminals for the microphone diagnosis Wherein the microcomputer is operable to diagnose a malfunction of the vehicle.
The apparatus according to claim 1,
And a second bias voltage having a voltage level higher than the voltage level of the first bias voltage is applied from the external voltage source.
3. The apparatus according to claim 2,
And the second bias voltage having a range of 2.8 to 3.3 volts is applied from the external voltage source.
The microcomputer according to claim 3,
And when a voltage level of the second bias voltage is detected as 0V, it is determined that a malfunction has occurred in the microphone.
The microcomputer according to claim 3,
And when the second bias voltage of 2.8 volts to 3.3 volts is detected, the microcomputer judges that the microphone is normal.
delete The microcomputer according to claim 1,
A connection state between the positive / negative terminal for the head unit, the positive / negative terminal for the telematics and the positive / negative terminal for the microphone and the positive / negative terminal of the microphone, the operation of the analog switch circuit And a port state for confirming whether or not the microphone is connected to the telematics connected to the head unit.

Images