KR20060098987A - Circuit for diagnosing connection state of speaker - Google Patents

Abstract

Speaker connection status diagnosis circuit that can diagnose the connection status between the amplifier and the speaker even when there is no audio signal input to the amplifier, and display the diagnosis result of the speaker connection through an external terminal. An amplifier of the speaker connection state diagnosis circuit according to the present invention amplifies the first voltage level signal, which is a high level, generated every predetermined period, into a second voltage level signal, and supplies it to the speaker. The voltage detector converts a current signal supplied through the speaker into a voltage level signal and supplies the voltage signal to the voltage comparator. The voltage comparator includes a third voltage that is a high level when the voltage level of the voltage level signal input from the voltage detector is greater than the reference voltage level. Outputs a level signal to the processor. The processor generates and supplies the first voltage level signal having the high level every predetermined period, supplies the amplifier to the amplifier, detects the third voltage level signal supplied from the voltage comparator, and transmits a diagnosis result of the speaker connection to the display unit. The display unit receives and displays a speaker connection status diagnosis result from the processor.

Amplifier, speaker, connection, diagnostics, opening, output

Description

Circuit for Diagnosing Connection State of Speaker

1 is a block diagram of a conventional speaker connection diagnosis circuit.

2 is a block diagram of another conventional speaker connection diagnosis circuit.

3 is a block diagram of a speaker connection diagnosis circuit according to an embodiment of the present invention.

Figure 4 is a block diagram of a speaker connection diagnosis circuit according to another embodiment of the present invention.

5 is a view showing a voltage level signal appearing in each part of the speaker connection state diagnosis circuit according to the present invention.

<Description of the symbols for the main parts of the drawings>

2: amplifier 12: speaker

22: processor 24: integrator

26: amplifier 28: DC voltage cut off

30: voltage detection unit 32: voltage comparison unit

34: display unit 36: communication interface unit

38: external terminal

The present invention relates to an amplifier, and more particularly, to a circuit for diagnosing a connection state between an amplifier and a speaker.

Since the amplifier and the speaker are implemented as separate physical devices, signals output through the amplifier are output through the speaker connected to the amplifier through a cable. In this case, since the length of the cable is relatively short in the home amplifier where the speaker is installed adjacent to the amplifier, the error occurrence probability of the connection state between the amplifier and the speaker is low and error detection is easy even when an error occurs. However, in the public address amplifier system where the speaker should be installed at a considerable distance from the amplifier, the length of the cable should be considerably longer. Therefore, the probability of error occurrence in the connection state between the amplifier and the speaker is high, and error detection is not easy when an error occurs. Can not do it.

1 and 2 are related to the prior art for solving this problem, Figure 1 relates to a method of inputting a frequency of a predetermined band to the input terminal of the amplifier, Figure 2 is a method for detecting the voltage of the output terminal of the amplifier. It is about.

First, referring to FIG. 1, the operation principle of the circuit shown in FIG. 1 includes a processor 4, a sine wave oscillator 6, an amplifier 8, and an impedance detector 10. When the connection state diagnosis cycle of the predetermined speaker 12 is reached, the processor 4 controls the sine wave oscillator 6 such that the sine wave oscillator 6 generates a frequency band signal between 15 KHz and 20 KHz. The sine wave oscillator 6 generates the signal of the frequency band under the control of the processor 4 and supplies the signal to the amplifier 8, and the amplifier 8 amplifies the signal through the speaker 12. Output In this case, the impedance detection unit 10 extracts an impedance value from the signal supplied to the speaker 12 and supplies the same to the processor 4, and the processor 4 compares the impedance value with a predetermined reference impedance value to determine the speaker 12. Will diagnose the connection status. At this time, the reference impedance value is set to the impedance value at the time of initial installation of the amplifier 2.

However, the circuit illustrated in FIG. 1 has a problem in that a high frequency signal, which is a frequency band signal between 15KHz and 20KHz, is continuously output through the speaker during the diagnosis state of connection of the speaker. When the high frequency signal is generated, there is a problem that driving of the amplifier 2 becomes difficult. In addition, the reference impedance value is determined by the cable length between the amplifier 2 and the speaker 12. In the case of the cable installed outdoors, the impedance value measured according to the season is changed, so that the difference with the reference impedance value is increased. There is another problem.

Next, the operation principle of the circuit shown in FIG. 2 will be described. The amplifier 2 includes an amplifier 14, a voltage detector 16, a voltage comparator 18, and a display 20. The voltage detector 16 converts the current signal amplified by the unit 14 into a voltage level signal and supplies it to the voltage comparator 18. The voltage comparing unit 18 compares the predetermined voltage level with the voltage level of the voltage level signal input from the voltage detecting unit 16 and transmits the result to the display unit 20. The voltage comparing unit 18 connects the speaker to the speaker connection state. The display unit 20 receiving the diagnosis result displays the result.

However, in the circuit shown in FIG. 2, the connection state of the speaker 12 can be diagnosed only when there is a signal input to the amplifier 2, and the speaker 12 when there is no signal input to the amplifier 2. There is a problem that can not diagnose the connection state of.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and provides a speaker connection state diagnosis circuit capable of diagnosing a connection state between an amplifier and a speaker even when no signal is input to the amplifier.

In addition, another object of the present invention is to provide a speaker connection state diagnosis circuit that can display the connection state diagnosis result of the speaker through an external terminal.

In order to achieve the above technical problem, the amplifying unit of the speaker connection state diagnosis circuit of the present invention amplifies a first voltage level signal, which is a high level, generated at a predetermined cycle, into a second voltage level signal, and supplies the same to the speaker. The voltage detector converts a current signal supplied through the speaker into a voltage level signal and supplies the voltage signal to the voltage comparator. The voltage comparator includes a third voltage that is a high level when the voltage level of the voltage level signal input from the voltage detector is greater than the reference voltage level. Outputs a level signal to the processor. The processor generates and supplies the first voltage level signal having the high level every predetermined period, supplies the amplifier to the amplifier, detects the third voltage level signal supplied from the voltage comparator, and transmits a diagnosis result of the speaker connection to the display unit. The display unit receives the speaker connection diagnosis result from the processor and displays it. In one embodiment, the display unit is implemented as a self-light emitting device (LED).

In a preferred embodiment, the speaker connection state diagnosis circuit further includes an integrator that receives the first voltage level signal generated from the processor, converts the signal to an increasing voltage level signal with a predetermined slope, and inputs the converted signal to the amplifier. do.

In a modified embodiment of the present embodiment, the speaker connection state diagnosis circuit further includes a DC voltage blocking unit for blocking the operation of the amplifier when a DC voltage is detected at the output terminal of the amplifier. In this case, the DC voltage cutoff unit preferably operates only in a section in which the first voltage level signal is at a low level to diagnose a connection state of the speaker.

The amplifying unit of the speaker connection state diagnosis circuit of the present invention for achieving the above another technical problem amplifies a first voltage level signal, which is a high level generated every predetermined period, into a second voltage level signal and supplies it to the speaker. The voltage detector converts a current signal supplied through the speaker into a voltage level signal and supplies the voltage signal to the voltage comparator. The voltage comparator includes a third voltage that is a high level when the voltage level of the voltage level signal input from the voltage detector is greater than the reference voltage level. Outputs a level signal to the processor. The processor generates the high voltage first voltage level signal every predetermined period and supplies the first voltage level signal to the amplifier, detects the third voltage level signal supplied from the voltage comparator, and transmits a connection state diagnosis result of the speaker to the communication interface. The communication interface unit receives the diagnosis result of the speaker connection state from the processor and transmits the result to the external terminal.

In a preferred embodiment, the speaker connection state diagnosis circuit receives the first voltage level signal, which is a high level generated from the processor, converts the signal into an increasing voltage level signal with a predetermined slope and inputs the converted signal to the amplifier. Further includes an integrator.

In a modified embodiment of the present embodiment, the speaker connection state diagnosis circuit further includes a DC voltage blocking unit for blocking the operation of the amplifier when a DC voltage is detected at the output terminal of the amplifier. In this case, the DC voltage cutoff unit preferably operates only in a section in which the first voltage level signal is at a low level to diagnose a connection state of the speaker.

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

3 is a block diagram of a speaker connection state diagnosis circuit according to an embodiment of the present invention. In order to diagnose the connection state of the speaker 12, the speaker connection state diagnosis circuit according to the present invention includes a processor 22, an integrator 24, an amplifier 26, a DC voltage cut-off unit 28, and a voltage detector 30. , A voltage comparator 32, and a display unit 34.

The processor 22 generates a first voltage level signal which becomes a high level during a predetermined connection state diagnosis time of the speaker 12 and becomes a low level when the connection state diagnosis of the speaker 12 is completed. In the present embodiment, the first voltage level signal is generated in software, but in the modified embodiment, the first voltage level signal may be generated by using a clock generator (not shown) controlled by the processor 22. In one embodiment, the connection state diagnosis period of the speaker 12 is preferably 1 minute to 24 hours. If it is not necessary to frequently diagnose the connection state of the speaker 12 may be 24 hours. The processor 22 detects the connection state diagnosis result of the speaker 12 from the voltage comparing unit 32 and transmits the detected result to the display unit 34.

The integrator 24 increases the first voltage level signal supplied from the processor 22 with a predetermined slope up to a predetermined voltage level by using the RC charging / discharging circuit, and constantly reaches a predetermined voltage level. The first voltage level signal, which is held at a low level, is reduced to a predetermined voltage level with a predetermined slope, and converted to a first voltage level signal that is maintained at a predetermined voltage level. If the first voltage level, which is a DC voltage generated from the processor 22, is suddenly supplied to the speaker 12 without a constant slope, or suddenly the supply is stopped without a constant slope, pop noise is generated from the speaker 12. Integrator 24 is used to eliminate this pop noise by causing the first voltage level signal to increase or decrease with a constant slope. Therefore, in the modified embodiment, the speaker connection state diagnosis circuit may be implemented without the integrator 24.

The amplifier 26 amplifies the first voltage level signal supplied from the processor 22 or the first a voltage level signal supplied from the integrator 24 to a predetermined magnitude to generate a second voltage level signal.

The DC voltage blocking unit 28 cuts off the operation of the amplifier 2 to protect the speaker 12 when a DC voltage is detected at the output terminal of the amplifier 26. Since the speaker connection state diagnosis circuit of the present invention amplifies and uses the DC voltage supplied from the processor 22 to diagnose the connection state of the speaker 12, the DC voltage is detected at the output terminal of the amplifier 26. . Therefore, in order to diagnose the connection state of the speaker 12 using the speaker connection state diagnosis circuit according to the present invention, the DC voltage cut-off unit 28 receives a first cycle from the processor 22 when the connection state diagnosis period of the speaker 12 is reached. When the voltage level signal is received and the first voltage level signal is at the high level, the operation is stopped, and the operation is resumed only when the first voltage level signal is at the low level to cut off the DC voltage. Therefore, in the modified embodiment, the speaker connection state diagnosis circuit may be implemented without the DC voltage blocking unit 28.

The voltage detector 30 detects a current flowing through the speaker 12 and converts the detected current into a voltage level signal to shape it. In this case, when the speaker 12 is normally connected to the amplifier 2, the current flows through the speaker 12, so that the voltage detector 30 outputs a voltage level signal having a predetermined size. If the speaker 12 is not normally connected, no signal is detected because the circuit is open and there is no current flow.

The voltage comparator 32 compares the voltage level of the voltage level signal input from the voltage detector 30 with a predetermined reference voltage level and outputs a third voltage level signal. At this time, if the voltage level of the voltage level signal input from the voltage detector 30 is greater than the reference voltage level, the voltage comparator 32 outputs a third voltage level signal that is a high level and is input from the voltage detector 30. When the voltage level of the signal is smaller than the reference voltage level, the third voltage level signal which is a low level is output.

The display unit 34 receives and displays a connection state diagnosis result of the speaker 12 from the processor 22. In one embodiment, the display unit 34 may be implemented as a self-light emitting device (LED). In this case, the display unit 34 emits a green LED when the connection state is received from the process 22. In case of receiving a result of bad connection, the red LED can be emitted. In an embodiment in which the present embodiment is modified, the display unit 34 may display the result only when the connection state is received without receiving any indication.

4 is a block diagram of a speaker connection diagnosis circuit according to another embodiment of the present invention. In order to diagnose the connection state of the speaker 12, the speaker connection state diagnosis circuit according to the present invention includes a processor 22, an integrator 24, an amplifier 26, a DC voltage cut-off unit 28, and a voltage detector 30. , A voltage comparator 32, and a communication interface 36. The components of the circuit shown in FIG. 4 are shown in FIG. 3 except that the communication interface 36 is provided in place of the display unit 36 to display the diagnosis result of the connection of the speaker 12. FIG. Since it is the same as the detailed description thereof will be omitted. Here, the communication interface 36 receives the diagnosis result of the connection state of the speaker 12 from the processor 22 and transmits the result to the external terminal 38. In one embodiment, the communication interface 36 is connected to the RS232 communication port. Is implemented.

Figure 5 shows the waveform of the input and output signals appearing in the speaker connection state diagnostic circuit according to the present invention.

(a) shows the first voltage level signal generated by the processor 22. FIG. As shown in the drawing, the section in which the first voltage level signal is high level indicates the timing of diagnosis of the connection state of the speaker 12, and the section in which the first voltage level signal is low level indicates that the diagnosis of the connection state of the speaker 12 is completed. As described above, the connection state diagnosis of the speaker 12 may be performed every 1 minute to 24 hours.

(b) shows the first voltage level signal in which the first voltage level signal generated by the processor 22 is converted through the integrator 24. As shown, the first voltage level signal is a period for diagnosing the connection state of the speaker 12, and when the first voltage level signal having a high level is input to the integrator 24, the first voltage level signal is preliminary through the RC charge / discharge circuit in the integrator 24. The voltage is increased to a predetermined voltage level with a predetermined slope, and then maintained at a predetermined level when the voltage level reaches a predetermined voltage level. In addition, when the first voltage level signal of the low voltage level signal is input from the processor 22 to the integrator 24, the first charge level signal of the first voltage level signal is applied to the RC charge / discharge circuit in the integrator 24. Through the decrease to a predetermined voltage level with a predetermined slope until the predetermined voltage level is maintained at a constant level.

(c) and (d) show a second voltage level signal or a second voltage level signal in which the first voltage level signal or the first voltage level signal is amplified to a predetermined magnitude.

(e) and (f) show third voltage level signals output from the voltage comparator 32. (e) shows a case in which the amplifier 2 and the speaker 12 are normally connected, so that the voltage comparator 32 outputs a third voltage level signal having a high level, and (f) shows the amplifier 2 and the speaker ( 12 illustrates a case in which the voltage comparator 32 outputs a third voltage level signal having a low level because the voltage comparator 32 is not normally connected.

The speaker connection state diagnosis circuit according to the present invention operates as follows.

When the predetermined time of diagnosis of the speaker connection state is reached, the processor 22 outputs a first voltage level signal of a high level to the integrator 24 and the DC voltage cut-off unit 28. The integrator 24 receiving the first voltage level signal having a high level increases the first voltage level signal with a predetermined slope up to a predetermined voltage level and maintains a constant level when the voltage level reaches the predetermined voltage level. The signal is converted into a level signal and supplied to the amplifier 26. The amplifier 26 amplifies the first voltage level signal to a predetermined magnitude and supplies the same to the speaker 12, and the voltage detector 30 detects a current signal flowing through the speaker 12 and converts the signal into a voltage level signal. . At this time, the DC voltage is output through the amplifier 26, but the DC voltage cut-off unit 28 receives the first voltage level signal having a high level, and since its operation is temporarily suspended, the signal amplified by the amplifier 26. Is normally supplied to the speaker 12. The voltage level signal output from the voltage detector 30 has a predetermined size when the speaker 12 is normally connected to the amplifier 2, but the voltage detector when the speaker is not connected to the amplifier 2. No signal is output via (30).

The voltage comparator 30 receiving the voltage level signal from the voltage detector 28 compares a predetermined reference voltage level with the voltage level of the voltage level signal input from the voltage detector 28 to determine the voltage level of the input voltage level signal. If the reference voltage level is higher than the reference voltage level, the high level is displayed. If the input voltage level signal is lower than the reference voltage level, the third voltage level signal indicating the low level is output and supplied to the processor 22. Upon receiving the third voltage level signal, the processor 22 displays the result through the display unit 24 or transmits the result to the communication interface 36 to display through the external terminal 38, and connects the speaker 12. The low voltage first voltage level signal is supplied to the integrator 24 and the DC voltage interrupter 28 to indicate that the state diagnosis is completed. The integrator 24 receiving the first voltage level signal having a low level decreases the first voltage level signal with a predetermined slope up to a predetermined voltage level, and then maintains a constant level when the voltage level reaches the predetermined voltage level. After converting to a level signal, the DC voltage cut-off unit 28 resumes operation to block the operation of the amplifier when a DC voltage is detected at the output terminal of the amplifier 26.

Those skilled in the art should understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. For example, although the speaker connection state diagnosis circuit of the present invention has been described as including only one of the display unit and the communication interface unit, in the modified embodiment, the speaker connection state diagnosis circuit includes both the display unit and the communication interface unit to display the connection state through the display unit. The display may be performed through an external terminal. In addition, although the speaker connection state diagnosis circuit of the present invention is described as being integrally implemented with the amplifier, it may be implemented as a separate physical device from the amplifier. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the invention is indicated by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the invention. do.

As described above, according to the present invention, even when there is no audio signal input to the amplifier, there is an effect of diagnosing a connection state between the amplifier and the speaker.

In addition, according to the present invention there is an effect that can be displayed through the external terminal as well as the display unit provided in the amplifier connection state diagnosis result of the speaker itself.

Claims (7)

This circuit diagnoses the connection between the amplifier and the speaker. An amplifier for amplifying a first voltage level signal having a high level into a second voltage level signal and supplying the first voltage level signal to the speaker; A voltage detector converting a current signal supplied through the speaker into a voltage level signal and inputting the voltage signal to a voltage comparator; A voltage comparator for outputting a third voltage level signal having a high level to the processor when the voltage level of the voltage level signal input from the voltage detector is greater than a reference voltage level; The high voltage first voltage level signal is generated every predetermined period for diagnosing a connection state of a speaker, and when the diagnosis is completed, a first voltage level signal having a low level is generated and the third voltage level input from the voltage comparator. A processor configured to detect a signal and transmit a diagnosis result of the connection state of the speaker to a display unit; And A display unit for receiving and displaying the diagnosis result from the processor; Speaker connection status diagnostic circuit comprising a. The method of claim 1, wherein the speaker connection state diagnostic circuit, An integrator converting the first voltage level signal, which is generated from the processor, into a voltage level signal maintaining a constant level after increasing or decreasing the first voltage level signal having a predetermined slope to a predetermined voltage level. ; Speaker connection status diagnosis circuit further comprising. The method of claim 1 or 2, wherein the speaker connection state diagnostic circuit, A DC voltage cut-off unit which cuts off the operation of the amplifier when a DC voltage is sensed at the output terminal of the amplifier; The DC voltage cut-off unit further includes a speaker connection state diagnosis circuit that operates only during a period in which the first voltage level signal is at a low level. The method of claim 1, And the display unit is a light emitting device (LED). This circuit diagnoses the connection between the amplifier and the speaker. An amplifying unit for amplifying the first voltage level signal having a high level into a second voltage level signal at every predetermined period and supplying the same to the speaker; A voltage detector converting a current signal supplied through the speaker into a voltage level signal and inputting the voltage signal to a voltage comparator; A voltage comparator for outputting a third voltage level signal having a high level to the processor when the voltage level of the voltage level signal input from the voltage detector is greater than a reference voltage level; The high voltage first voltage level signal is generated every predetermined period, and when the diagnosis is completed, the low voltage first voltage level signal is generated, and the third voltage level signal input from the voltage comparator is sensed to detect the A processor for transmitting a connection status diagnosis result to a communication interface; And A communication interface for receiving the diagnosis result from the processor and transmitting the diagnosis result to an external terminal; Speaker connection status diagnostic circuit comprising a. The method of claim 1, wherein the speaker connection state diagnostic circuit, An integrator converting the first voltage level signal, which is generated from the processor, into a voltage level signal maintaining a constant level after increasing or decreasing the first voltage level signal having a predetermined slope to a predetermined voltage level. ; Speaker connection status diagnosis circuit further comprising. According to claim 5 or 6, The speaker connection state diagnostic circuit, A DC voltage cut-off unit which cuts off the operation of the amplifier when a DC voltage is sensed at the output terminal of the amplifier; The DC voltage cut-off unit further includes a speaker connection state diagnosis circuit that operates only during a period in which the first voltage level signal is at a low level.

Images