JP2014216704A - Speaker driving circuit having short-circuit and failure detecting function and detection method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a speaker driving circuit having a short-circuit and failure detecting function for detecting abnormality before the speaker driving circuit is actually used, and for preventing a person from perceiving that a detecting operation is being performed, and a detection method of the speaker driving circuit.SOLUTION: A speaker driving circuit having a short-circuit and failure detecting function is a speaker driving circuit 21 including a speaker amplifier part 25 for receiving a voice output, and for outputting a voice to a speaker 22. An input part 30 intermittently supplies a test output having a frequency other than an audible band to the speaker amplifier part 25. A detection part 26 intermittently detects the short-circuit of the speaker 22 and the failure of the speaker driving circuit 21 on the basis of an output signal from the speaker amplifier 25. A determination part 27 receives a signal from the detection part 26, and determines the short-circuit of the speaker 22 and the failure of the speaker driving circuit 21, and instructs a display lamp 29 to blink or light.

Description

  The present invention relates to a speaker drive circuit having a short-circuit and failure detection function and a detection method thereof, and more specifically, to eliminate abnormal noise generated during operation when a short-circuit detection of a speaker and a failure detection of a speaker drive circuit are detected. The present invention relates to a speaker drive circuit having a short-circuit and failure detection function and a detection method thereof.

  Conventionally, an abnormality detection apparatus that automatically detects when an abnormality such as a short circuit occurs in a speaker line in a commercial broadcast apparatus or an emergency broadcast apparatus is known. When a speaker is short-circuited, an overcurrent flows, causing heat generation and ignition. In order to prevent this, if an overcurrent is detected, an abnormality is notified by an indicator lamp. As this main speaker short circuit detection circuit, for example, there is one described in Patent Document 1. The device described in Patent Document 1 relates to a speaker line abnormality detection device having a function of electrically disconnecting a speaker line in which an abnormality has occurred from a broadcasting device.

FIG. 1 shows a speaker short-circuit detection circuit described in Patent Document 1. In the figure, reference numeral 1 denotes a speaker line, 1a and 1b each line of the speaker line, 2 a speaker, 3 an amplifier, 4 a switch, 5 a CPU (central processing unit), 6 an operation unit, 7 a display unit, 8 Is a storage unit, 9 is a current sensor, and 10 is a voltage sensor.
The current sensor 9 detects the total output current I of the amplifier 3 and supplies current data obtained by the detection to the CPU 5. On the other hand, the voltage sensor 10 detects the voltage between the lines 1a and 1b of the speaker line 1, that is, the output voltage V of the amplifier 2 in the vicinity of the output side of the amplifier 3, and the voltage data obtained by this detection is obtained from the CPU 5 To supply. The CPU 5 calculates the impedance Zs of the speaker line 1 based on the data I and V respectively supplied from the current sensor 9 and the voltage sensor 10, for example, according to the following formula 1.

  Here, for example, it is now assumed that the speaker line 1 is not short-circuited, that is, is normal. Then, it is assumed that the relay switch circuit 4 is turned on and a broadcast signal is output from the amplifier 3. In this case, the impedance Zs of the speaker line 1 is a value corresponding to, for example, the wiring state of the speaker line 1 or the number of connected speakers 2. On the other hand, if the speaker line 1 is short-circuited, for example, the impedance Zs becomes extremely small as compared to when it is normal, and the amplifier 3 is overloaded.

Therefore, a certain reference value Z0 is determined for the impedance Zs. Then, by comparing the reference value Z0 with the impedance Zs described above, it can be determined whether or not the speaker line 1 is short-circuited.
FIG. 2 is a diagram showing an operation sequence of the speaker short-circuit detection circuit shown in FIG. When actually used, a broadcast signal is input, the output of the speaker drive circuit is received by the current sensor 9 and the voltage sensor 10, and the output of the current sensor 9 and the voltage sensor 10 is input to the CPU 5. When the CPU 5 calculates the impedance of the speaker 1 and detects an abnormality with respect to the level stored in the storage unit 8 in advance, the SW 4 is turned off and a signal notifying the abnormality is sent to the display unit 7 to notify the abnormality to the outside.

JP 2001-36995 A

  However, when the above-described speaker short circuit detection circuit disclosed in Patent Document 1 is used, there is a problem that it is not known whether it is abnormal unless it is actually used. That is, in Patent Document 1 described above, an operation of connecting speakers in multiple stages and searching for usable ones is performed, but it takes time until detection. For example, it does not normally output sound such as an alarm device, but it is useless if a speaker short circuit abnormality is found when an alarm must be issued immediately such as a fire. In addition, since the broadcast signal is used, it is within the audible range, so that it may be heard by a person during the test, and the circuit outputs a sound that is not desired to be heard.

  The present invention has been made in view of such a problem, and the object of the present invention is to detect a short circuit and a failure before detecting the abnormality before actually using it and to make sure that the detection operation is being performed. The present invention provides a speaker driving circuit and a detection method thereof.

The present invention has been made in order to achieve such an object. The invention according to claim 1 is a speaker having a speaker amplifier section (25) for receiving sound output and outputting sound to the speaker (22). In the drive circuit (21), an input unit (30) that intermittently supplies a test output having a frequency outside the audible band to the speaker amplifier unit (25), and an output signal from the speaker amplifier unit (25). A detection unit (26) for intermittently detecting a short circuit of the speaker (22) and a failure of the speaker drive circuit (21), and a signal from the detection unit (26), and receiving the speaker (22) ) And a determination unit (27) for determining whether the speaker drive circuit (21) is faulty and instructing the indicator lamp (29) to blink or turn on. A speaker driving circuit for. (Figure 3)
The invention according to claim 2 is characterized in that, in the invention according to claim 1, the input unit (30) includes a switch (SW1) for switching between the audio output and the test output. To do. (Figure 3)

According to a third aspect of the present invention, in the first aspect of the present invention, the input unit (30) inputs the test output instead of the audio output. (Figure 3)
According to a fourth aspect of the present invention, in the invention according to the first, second, or third aspect, the input unit (30) includes an oscillation circuit unit (23) that oscillates a frequency outside the audio band or the audible band. The oscillation circuit section (23) includes an oscillator (231) that generates the test output and a band-pass filter (232). (Fig. 4)
According to a fifth aspect of the present invention, in the invention according to any one of the first to fourth aspects, the determination unit (27) includes the current sensor (253) of the speaker amplifier unit (25) and the detection unit. A short circuit of the speaker (22) and a failure of the speaker drive circuit (21) are detected based on the output signal of (26). (Fig. 3, Fig. 5)

The invention according to claim 6 is the invention according to claim 5, wherein the current sensor (253) is an overcurrent protection circuit that detects a current flowing through the speaker amplifier (22). To do. (Fig. 5)
The invention according to claim 7 is the invention according to any one of claims 1 to 6, wherein the speaker amplifier section (25) disconnects the band limiting capacitor (C2) when the test output is used. A switch (SW2) is provided. (Fig. 5)
The invention according to claim 8 is the invention according to any one of claims 1 to 7, wherein the detection section (26) is an amplitude detection section for detecting an output amplitude of the speaker amplifier, The amplitude detection unit (26) performs differential single conversion on the output signal from the speaker amplifier unit (25), and after differential single conversion by the differential single conversion circuit (261). A peak hold circuit (262) for DC-converting the peak voltage, a bottom hold circuit (263) for DC-converting the bottom voltage after differential single conversion by the differential single conversion circuit (261), and respective DC-converted voltages Are provided with comparators (264, 265) for comparing with a preset reference voltage. (Fig. 6)

The invention according to claim 9 is the invention according to any one of claims 1 to 8, wherein the determination unit (27) is a logic unit, and the logic unit (27) is intermittently operated. A timer circuit (272) for detecting a short circuit of the speaker and a failure of the speaker driving circuit (21) is provided. (Fig. 7)
According to a tenth aspect of the present invention, in the ninth aspect of the invention, the logic unit (27) includes an output signal from the overcurrent protection circuit (253) and an amplitude detection unit (26). And a detection determination circuit (271) for performing detection determination based on the output of the comparator (264) on the peak hold side and the output signal of the comparator (265) on the bottom hold side. (Fig. 7)

  The invention according to claim 11 is the detection method in the speaker drive circuit (21) having a speaker amplifier section (25) for receiving sound output and outputting sound to the speaker (22), wherein the speaker amplifier is intermittently provided. Supplying a test output having a frequency outside the audible band to the unit (25) by the input unit (30), and intermittently by the detection unit (26) based on the output signal from the speaker amplifier unit (25). And detecting a short circuit of the speaker (22) and a failure of the speaker drive circuit (21) and a signal from the detection unit (26), and a short circuit of the speaker (22) by the determination unit (27). And a step of judging a failure of the speaker drive circuit (21) and instructing the indicator lamp (29) to blink or turn on. The detection method of a speaker driving circuit having a capability.

According to a twelfth aspect of the invention, in the invention of the eleventh aspect, the input unit (30) switches the audio output and the test output by a switch (SW1).
The invention described in claim 13 is characterized in that, in the invention described in claim 11, the input unit (30) inputs the test output instead of the audio output.

According to a fourteenth aspect of the present invention, in the invention according to the eleventh, twelfth or thirteenth aspect, the input section (30) oscillates a frequency outside the audio band or the audible band by the oscillation circuit section (23). The oscillation circuit section (23) includes an oscillator (231) that generates the test output and a band-pass filter (232).
The invention according to claim 15 is the invention according to any one of claims 11 to 14, wherein the determination unit (27) includes the current sensor (253) of the speaker amplifier unit (25) and the detection unit. A short circuit of the speaker (22) and a failure of the speaker drive circuit (21) are detected based on the output signal of (26).

The invention according to claim 16 is the invention according to claim 15, wherein the current sensor (253) detects a current flowing through the speaker amplifier (22) by an overcurrent protection circuit. .
The invention according to claim 17 is the band limiting capacitor according to any one of claims 11 to 16, wherein the speaker amplifier section (25) uses the test output by the switch (SW2). (C2) is cut off.

  According to an eighteenth aspect of the present invention, in the invention according to any one of the eleventh to seventeenth aspects, the amplitude detecting section (26) of the detecting section is connected to the speaker amplifier section by a differential single conversion circuit (261). The output signal from (25) is subjected to differential single conversion, and after the differential single conversion by the differential single conversion circuit (261), the peak voltage is DC converted by the peak hold circuit (262), and the differential single conversion circuit ( 261), the bottom voltage is converted into a DC voltage by a bottom hold circuit (263), and each DC converted voltage is compared with a reference voltage set in advance by a comparator (264, 265). .

The invention according to claim 19 is the invention according to any one of claims 11 to 18, wherein the logic section (27) of the determination section (27) is intermittently operated by the timer circuit (272). A short circuit of the speaker and a failure of the speaker driving circuit (21) are detected.
According to a twentieth aspect of the invention, in the invention of the nineteenth aspect, the detection determination circuit (271) of the logic unit (27) includes an output signal from the overcurrent protection circuit (253), and the Detection determination is performed based on the output of the comparator (264) on the peak hold side from the amplitude detector (26) and the output signal of the comparator (265) on the bottom hold side.

  According to the present invention, by intermittently detecting a speaker short circuit and a failure of the speaker drive circuit, an abnormality can be detected before actual use, and when an emergency is required, such as an alarm device, as a sound (voice), It has the effect that it can output from a speaker. Moreover, it has the effect that it does not become harsh as an abnormal sound during the detection operation.

This is a speaker short-circuit detection circuit described in Patent Document 1. It is a figure which shows the operation | movement sequence of the speaker short circuit detection circuit shown in FIG. It is a block block diagram for demonstrating the speaker drive circuit which concerns on this invention. FIG. 4 is a block configuration diagram of an oscillation circuit unit illustrated in FIG. 3. It is a block block diagram of the speaker amplifier part shown in FIG. It is a block block diagram of the amplitude detection part shown in FIG. FIG. 4 is a block configuration diagram of a logic unit illustrated in FIG. 3. It is a figure which shows the operation | movement sequence of the speaker drive circuit shown in FIG. It is a figure which shows the operation | movement sequence for demonstrating in detail the detection operation | movement shown in FIG. (A) thru | or (c) is a figure which shows each output signal at the time of normal at the time of the detection operation of a speaker drive circuit. (A) thru | or (c) is a figure which shows each output signal at the time of normal, when switch SW2 is turned on to a speaker amplifier part. (A) thru | or (c) is a figure which shows each output signal at the time of a short circuit in case the speaker has short-circuited. (A) thru | or (c) is a figure which shows the case where the resistance in a speaker drive circuit remove | deviated. (A) thru | or (c) is a figure which shows the case where the capacitor | condenser connected to a speaker drive circuit remove | deviates.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 3 is a block diagram for explaining a speaker driving circuit according to the present invention. In the figure, reference numeral 21 denotes a speaker drive circuit, 22 a speaker, 23 an oscillation circuit unit, 24 a switch (SW1), 25 a speaker amplifier unit, 26 an amplitude detection unit (detection unit), and 27 a logic unit (determination unit). , 28 is an audio unit, 29 is an indicator lamp, and 30 is an input unit.

The speaker drive circuit having a short-circuit and failure detection function according to the present invention is a speaker drive circuit 21 having a speaker amplifier unit 25 that receives sound output and outputs sound to the speaker 22.
The input unit 30 includes an oscillation circuit unit 23, an audio unit 28, and a switch (SW1) 24 for switching between them, and intermittently supplies a test output having a frequency outside the audible band to the speaker amplifier unit 25. It is. The detecting unit 26 detects intermittently a short circuit of the speaker 22 and a failure of the speaker driving circuit 21 based on an output signal from the speaker amplifier unit 25.

The determination unit 27 receives a signal from the detection unit 26, determines whether the speaker 22 is short-circuited and the speaker drive circuit 21 is broken, and instructs the indicator lamp 29 to blink or turn on.
That is, the speaker drive circuit 21 of the present invention operates only during intermittent detection, and switches between the oscillation circuit unit 23 that oscillates frequencies other than the audio band or the auditory band, and the oscillation circuit unit 23 and the audio unit 28. A speaker amplifier unit 25 having an overcurrent protection circuit connected to the switch 24 and the oscillation circuit unit 23 switched by the switch 24, and amplitude detection for detecting amplitude based on an output signal from the speaker amplifier unit 25 In response to the output signal from the unit 26 and the amplitude detection unit 26 and the output signal from the overcurrent protection circuit of the speaker amplifier unit 25, it is determined whether the speaker drive circuit is short-circuited or broken, and the indicator lamp 29 is flashed or lit. The determination unit 27 for instructing and the speaker 22 connected to the speaker amplifier unit 25 are configured.

The input unit 30 also includes a switch SW1 that switches between audio output and test output. The input unit 30 inputs a test output instead of the audio output.
The switch (SW1) 24 is a switch for switching the input of the speaker amplifier unit 25 between the audio output of the audio unit 28 and the oscillation circuit unit 23. Normally, it is connected to the audio output side, and is connected to the oscillation circuit unit 23 only when failure detection is intermittently performed. Note that the switch 24 and the oscillation circuit unit 23 may be eliminated, and an oscillation output may be input instead of an audio input.

FIG. 4 is a block configuration diagram of the oscillation circuit section shown in FIG. In the figure, reference numeral 231 denotes an oscillator, and 232 denotes a band pass filter (BPF).
The input unit 30 includes an oscillation circuit unit 23 that oscillates a frequency outside the audio band or audible band. The oscillation circuit unit 23 includes an oscillator 231 that generates a test output and a bandpass filter 232.

That is, the oscillation circuit unit 23 is a circuit that operates only when intermittent detection is performed and oscillates a frequency outside the audio band or the audible band, and includes an oscillator 231 and a BPF 232 connected to the oscillator 231. Yes.
The oscillator 231 may be a general oscillator or a DIGITAL clock. The BPF 232 is configured by a combination of an HPF (high-pass filter) that lowers the frequency of the audio band or the auditory band and an LPF (low-pass filter) that lowers the output of the oscillator 231 or a high-frequency higher than the DIGITAL clock frequency. For example, if the auditory band is ˜20 kHz and the clock frequency is 100 kHz, this is a combination of an HPF that sufficiently reduces 20 kHz or less and an LPF that drops harmonics of 100 kHz or more.

  FIG. 5 is a block diagram of the speaker amplifier section shown in FIG. In the figure, reference numeral 251 denotes a differential signal conversion circuit, 252 denotes a fully differential amplifier circuit, and 253 denotes an overcurrent protection circuit. The speaker amplifier unit 25 includes a differential single conversion circuit 251, a fully differential amplifier circuit 252 connected to the differential single converter circuit 251, and an overcurrent protection circuit 253 connected to the fully differential amplifier circuit 252. It consists of and.

The determination unit 27 detects a short circuit of the speaker 22 and a failure of the speaker drive circuit 21 based on the output signals of the current sensor 253 and the detection unit 26 of the speaker amplifier unit 25.
The current sensor 253 is an overcurrent protection circuit that detects a current flowing through the speaker amplifier 22. Further, the speaker amplifier unit 25 includes a switch SW2 that disconnects the band limiting capacitor C2 when the test output is used.

The fully differential amplifier circuit 252 includes a DC cut capacitor (CAP) C1, an input side resistor R1, a feedback side resistor R2, a band limiting capacitor (CAP) C2, a speaker amplifier SANP, And a switch SW2 for disconnecting the limiting capacitor (CAP) C2.
The overcurrent protection circuit 253 has a function of detecting the current flowing through the speaker 22 and suppressing the output amplitude of the speaker amplifier SAMP when an overcurrent occurs, and a drive stage control signal for suppressing the output amplitude of the speaker amplifier SAMP. When it is generated and output to the speaker amplifier SAMP and a suppression operation is performed, it is sent to the LOGIC unit 27 as the output of the current sensor. When normally used, the band limiting capacitor C2 is connected by the switch SW2. When the failure is detected intermittently, the band limiting capacitor C2 is disconnected by the switch SW2 in order to eliminate the band limitation. Since the frequency input from the oscillation circuit unit 23 can pass, the amplitude detection unit 26 can obtain a desired amplitude. Further, if the switch SW2 is connected, the desired amplitude cannot be obtained, and the amplitude detecting unit 26 cannot obtain the desired amplitude, that is, it is understood that the band limiting capacitor C2 is normally connected.

  FIG. 6 is a block diagram of the amplitude detector shown in FIG. In the figure, reference numeral 261 denotes a differential signal conversion circuit, 262 denotes a peak hold circuit, 263 denotes a bottom hold circuit, and 264 and 265 denote comparators. The amplitude detection unit 26 is connected to the differential single conversion circuit 261, the peak hold circuit 262 and the bottom hold circuit 263 connected to the differential single conversion circuit 261, and the peak hold circuit 262 and the bottom hold circuit 263, respectively. Comparators 264 and 265.

  The detection unit 26 is an amplitude detection unit that detects the output amplitude of the speaker amplifier. The amplitude detection unit 26 performs a differential single conversion on the output signal from the speaker amplifier unit 25, and this A peak hold circuit 262 for DC-converting the peak voltage after differential single conversion by the differential single conversion circuit 261; a bottom hold circuit 263 for DC-converting the bottom voltage after differential single conversion by the differential single conversion circuit 261; Comparators 264 and 265 are provided for comparing the DC converted voltage with a preset reference voltage.

  That is, after the signal output differentially from the speaker amplifier unit 25 is subjected to differential single conversion by the differential single conversion circuit 261, the peak voltage is converted to DC by the peak hold circuit 262, and the bottom voltage is converted to DC by the bottom hold circuit 263. Convert. Amplitude detection is performed using comparators 264 and 265 that compare reference voltages 1 and 2 set in advance with DC-converted voltages.

  FIG. 7 is a block diagram of the logic unit shown in FIG. In the figure, reference numeral 271 denotes a detection determination circuit, 272 denotes a timer circuit, and 273 denotes a control circuit for the speaker driving circuit. The logic unit 27 includes a timer circuit 272, a speaker drive circuit control circuit 273 connected to the timer circuit 272, and a detection determination circuit 271 connected to the speaker drive circuit control circuit 273. .

The determination unit 27 is a logic unit, and the logic unit 27 includes a timer circuit 272 for intermittently detecting a short circuit of the speaker and a failure of the speaker driving circuit 21.
The logic unit 27 performs detection determination based on the output signal from the overcurrent protection circuit 253 and the output of the peak hold side comparator 264 and the output signal of the bottom hold side comparator 265 from the amplitude detection unit 26. A detection determination circuit 271 is provided.

  The timer circuit 272 is for intermittently detecting a failure, and notifies the control circuit 273 of the speaker driving circuit that the detection time is started at certain intervals. The control circuit 273 of the speaker drive circuit controls the switch SW2 of the speaker amplifier unit 25 and performs circuit operation control such as control of the switch SW1 and power down control shown in FIG. The detection determination circuit 271 receives the output of the current sensor from the overcurrent protection circuit 253 and the output of the comparators 264 and 265 of the amplitude detection unit 26, determines that there is a short circuit or a failure, and turns the circuit off to the control circuit 273 of the speaker drive circuit. A control signal is output, and a blinking or lighting instruction is output to the indicator lamp 29.

  FIG. 8 is a diagram showing an operation sequence of the speaker drive circuit shown in FIG. First, a detection operation is performed immediately after power-on and before actual use. Next, when it is determined that there is an error, the circuit use is immediately stopped, and an abnormality is notified by an indicator lamp (blinking or lighting) 29. Next, when it is determined that there is no error, the use of the circuit is permitted and can be used. At that time, the overcurrent protection circuit 253 built in the speaker amplifier unit 25 is operating. If it is determined that the overcurrent protection circuit 253 has operated during use, the speaker is short-circuited. As a result, the use of the circuit is stopped and an abnormality is notified by the indicator lamp 29.

If it is determined that the overcurrent protection circuit 253 does not operate during use, the overcurrent protection circuit 253 continues to operate if the use of the circuit has not ended. If the use of the circuit is finished, the detection operation is performed at a constant cycle.
Immediately, when the circuit is not used, the detection operation is performed at a constant cycle from the power-on. If it is determined that there is an error, the indicator 29 notifies the abnormality. If there is no error determination, if the indicator lamp 29 has reported an abnormality, the indicator lamp 29 is considered to have been restored, and all the circuits other than the timer circuit are powered down until the next detection operation timing comes. Yes.

  FIG. 9 is a diagram showing an operation sequence for explaining the detection operation shown in FIG. 8 in detail. When the detection operation is started, the switch SW1 becomes the oscillation circuit unit side and becomes an input of the speaker amplifier unit 25, and the switch SW2 is turned off (the capacitor is disconnected). Thereafter, the speaker amplifier unit 25 and the amplitude detection unit 26 are powered up to start circuit operation. Next, the determination of the overcurrent protection circuit 253 and the amplitude detection are performed simultaneously to determine the presence or absence of an error.

Thereafter, in any case, when it is determined that there is no error and the switch SW2 is turned on (CAP is connected), detection is started in a state where the band limitation is applied to the speaker amplifier unit 25. At this time, the determination of the overcurrent protection circuit 25 and the amplitude detection are simultaneously performed, and the presence or absence of an error is similarly determined.
If even one of the above errors is present, it is determined that there is a short circuit or a failure, all the circuits other than the timer circuit are powered down, and an error is determined.

In any case, if it is determined that there is no error, all the circuits other than the timer circuit are powered down, and then no error is determined.
The operation of the speaker drive circuit of the present invention will be described below.
Since the detection operation performed immediately after power-on and intermittently performs the same operation, both are expressed as detection operations.

  FIGS. 10A to 10C are diagrams showing normal output signals during the detection operation of the speaker drive circuit, FIG. 10A is an output signal of the oscillation circuit unit, and FIG. 10B is a speaker. FIG. 10C is a diagram showing the output signal of the differential signal conversion circuit. The output frequency of the oscillation circuit unit 23 is 100 kHz, the amplitude value is Va, the differential output of the speaker amplifier unit 25 is Va, the reference voltage 1 of the amplitude detection unit 26 is + α, and the reference voltage 2 of the amplitude detection unit 26 is −β. It is said.

  When the timer circuit 272 of the logic unit 27 issues an instruction to perform a detection operation, the oscillation circuit unit 23 outputs a signal having an amplitude Va and a frequency of 100 kHz, and SW1 selects the oscillation circuit unit side. Thereafter, SW2 of the speaker amplifier unit 25 is turned off, and the band limiting capacitors C1 and C2 are disconnected. The speaker amplifier unit 25 and the amplitude detection unit 26 are powered up to start the detection operation.

At that time, the differential output of the speaker amplifier unit 25 outputs a frequency of 100 kHz and an amplitude Va. At this point, since the frequency is outside the audible frequency range, it cannot be heard by humans.
The differential output of the speaker amplifier unit 25 is received by the amplitude detection unit 26 and first passes through the differential single conversion circuit 261 to become a signal having an oscillation frequency of 100 kHz and an amplitude of 2 Va.
When the signal is input to the peak hold circuit 262 and the bottom hold circuit 263, the output is converted from the reference voltage to DC voltages of + Va and -Va, respectively.

  When + Va is larger than + α set in advance and −Va is smaller than −β, the outputs of the comparators (CMP) 264 and 265 respectively output “L”. The output polarities of the comparators (CMP) 264 and 265 do not need to be determined, and can be adjusted by the detection determination circuit 271 of the next logic unit 27. Next, SW2 is turned on and the same operation is performed.

  FIGS. 11A to 11C are diagrams showing respective output signals in a normal state when the switch SW2 is turned on in the speaker amplifier unit, FIG. 11A is an output signal of the oscillation circuit unit, and FIG. ) Is a differential output signal of the speaker amplifier unit, and FIG. 11C is a diagram showing a peak hold (PH) output, a bottom hold (BH) output, and a reference (REF) voltage. The differential output of the speaker amplifier unit 25 is Vb.

The oscillation circuit unit 23 outputs a signal having an amplitude Va and a frequency of 100 kHz, and SW1 is selected on the oscillation circuit unit side. Thereafter, SW2 of the speaker amplifier unit 25 is turned on, and the band limiting capacitors C1 and C2 are connected. The speaker amplifier unit 25 and the amplitude detection unit 26 are powered up to start the detection operation.
At that time, the differential output of the speaker amplifier unit 25 is connected to the band-limiting capacitors C1 and C2, and therefore outputs a frequency of 100 kHz and an amplitude Vb. At this point, since the frequency is outside the audible frequency range, it cannot be heard by humans.

The differential output of the speaker amplifier unit 25 is received by the amplitude detection unit 26 and first passes through the differential single conversion circuit 261 to become a signal having an oscillation frequency of 100 kHz and an amplitude of 2 Vb.
When the signal is input to the peak hold circuit 262 and the bottom hold circuit 263, the output is converted from the reference voltage to DC voltages of + Vb and −Vb, respectively.
When + Vb is smaller than + α set in advance and −Vb is larger than −β, the outputs of the comparators (CMP) 264 and 265 respectively output “H”.

When the first detection results are both “L” and the second detection results are both “H”, the speaker drive circuit is operating normally and the overcurrent protection circuit 253 is also activated. If not (when the overcurrent protection circuit is operating, the output is crushed and a signal indicating that it has been activated is sent to the determination circuit), the indicator lamp 29 does not blink or light up.
12 (a) to 12 (c) are diagrams showing output signals at the time of short-circuit when the speaker is short-circuited. FIG. 12 (a) is an output signal of the oscillation circuit unit, and FIG. FIG. 12C shows a peak hold (PH) output, a bottom hold (BH) output, and a reference voltage. The differential output of the speaker amplifier unit 25 is Vc.

  Due to the short circuit, the overcurrent protection circuit 253 is activated, and the output amplitude is reduced for overcurrent protection, and the output of the speaker amplifier unit 25 has an output amplitude that does not cause an overcurrent. Therefore, the comparators (CMP) 264 and 265 have a case where + Vc is smaller than + α set in advance and −Vc is larger than −β, and the outputs of the comparators (CMP) 264 and 265 output “H”, respectively. . Next, SW2 is turned on and the same operation is performed.

As in the first detection, the amplitude on the + side is smaller than + α set in advance and the amplitude on the − side is larger than −β, and the outputs of the comparators (CMP) 264 and 265 output “H”, respectively. To do.
Since both the first detection results are “H” and the second detection results are both “H”, and the overcurrent protection circuit 253 is activated, the detection determination circuit 271 of the logic unit 27 determines that a short circuit has occurred. Thus, an instruction to blink or turn on the indicator lamp 29 is output.

FIGS. 13A to 13C are diagrams showing a case where the resistance in the speaker driving circuit is removed. FIG. 13A is an output signal of the oscillation circuit unit, and FIG. 13B is a difference between the speaker amplifier units. FIG. 13C is a diagram showing a peak hold (PH) output, a bottom hold (BH) output, and a reference voltage.
In the speaker driving circuit, the resistor and the capacitor connected to the speaker amplifier unit 25 may be built-in or externally attached, and the short circuit detection in the present invention can be detected in either case.

For example, assuming that the feedback-side resistors R2 and R2 in FIG. 5 are disconnected, the output of the differential single conversion circuit 251 loses the amplitude balance from the reference voltage. In this embodiment, it is assumed that the balance on the bottom hold side has been lost.
In this case, the overcurrent protection circuit 253 does not operate, and the determination result of the capacitor on the bottom hold side is “H”. Next, SW2 is turned on and the same operation is performed.

At this time, the amplitude on the + side is smaller than + α set in advance and the amplitude on the − side is larger than −β, and the outputs of the comparators (CMP) 264 and 265 output “H”, respectively.
The first detection result is “L” on the peak hold side, “H” on the bottom hold side, and both detection results are “H”, and the overcurrent protection circuit 253 is not activated. The circuit 271 determines that a failure has occurred, and outputs an instruction to blink or light the indicator lamp 29.

14A to 14C are diagrams showing a case where the capacitor connected to the speaker drive circuit is disconnected, FIG. 14A is an output signal of the oscillation circuit unit, and FIG. 14B is a speaker amplifier unit. FIG. 14C shows a peak hold (PH) output, a bottom hold (BH) output, and a reference voltage.
For example, when one or two capacitors (CAP) on the feedback side in FIG. 5 are removed, the band limitation is not applied. Since SW2 at the first detection is originally off, the differential single conversion circuit 261 The output is a normal amplitude.

In this case, the overcurrent protection circuit 253 does not operate, and the determination result of both capacitors (CAP) is also “L”. Next, SW2 is turned on and the same operation is performed.
When two capacitors (CAP) are disconnected, the same amplitude output as in the first detection is obtained. When one is off, the amplitude is smaller than when two are off, but the amplitude is larger than when normal.

At this time, the amplitude on the + side is larger than + α set in advance and the amplitude on the − side is larger than −β, and the output of the capacitor (CAP) outputs “L”.
Since the first detection result is “L” on both the peak hold side and the bottom hold side, the detection results for the second time are both “L”, and the overcurrent protection circuit 253 is not activated. It is determined that a failure has occurred, and an instruction to blink or turn on the indicator lamp 29 is output.

Next, a method for detecting a speaker drive circuit having a short-circuit and failure detection function according to the present invention will be described. The detection method of the speaker drive circuit having the short-circuit and failure detection function according to the present invention is a detection method in the speaker drive circuit 21 having the speaker amplifier unit 25 that receives sound output and outputs sound to the speaker 22.
The step of intermittently supplying a test output having a frequency outside the audible band to the speaker amplifier unit 25 by the input unit 30 and the output signal from the speaker amplifier unit 25 are intermittently detected by the detection unit 26. Upon detecting the short circuit and the failure of the speaker drive circuit 21 and the signal from the detection unit 26, the determination unit 27 determines the short circuit of the speaker 22 and the failure of the speaker drive circuit 21 and blinks or lights up the indicator lamp 29. And a step of instructing.

The input unit 30 switches between audio output and test output using the switch SW1. The input unit 30 can also input a test output instead of the audio output.
Further, the input unit 30 oscillates a frequency outside the audio band or audible band by the oscillation circuit unit 23, and the oscillation circuit unit 23 includes an oscillator 231 that generates a test output and a bandpass filter 232.

The determination unit 27 detects a short circuit of the speaker 22 and a failure of the speaker drive circuit 21 based on the output signals of the current sensor 253 and the detection unit 26 of the speaker amplifier unit 25. Further, the current sensor 253 detects the current flowing through the speaker amplifier 22 by the overcurrent protection circuit.
Further, the speaker amplifier unit 25 disconnects the band limiting capacitor C2 when the test output is used by the switch SW2.

  Further, the amplitude detection unit 26 of the detection unit performs differential single conversion on the output signal from the speaker amplifier unit 25 by the differential single conversion circuit 261, and after the differential single conversion by the differential single conversion circuit 261, the peak hold circuit 262 The peak voltage is DC-converted, and after the differential single conversion by the differential single conversion circuit 261, the bottom voltage is DC-converted by the bottom hold circuit 263, and each DC-converted voltage is compared with the reference voltage set in advance by the comparators 264 and 265. Compare.

The logic unit 27 of the determination unit 27 detects a short circuit of the speaker and a failure of the speaker driving circuit 21 intermittently by the timer circuit 272.
The detection determination circuit 271 of the logic unit 27 is based on the output signal from the overcurrent protection circuit 253 and the output of the peak hold side comparator 264 and the output signal of the bottom hold side comparator 265 from the amplitude detection unit 26. To make a detection decision.

  From the above, a speaker short circuit and a failure of the speaker drive circuit itself in the speaker drive circuit can be detected before actual use, and no abnormal noise is heard during the detection operation. This is effective for alarm devices that must be alerted in the event of an emergency, and since it is implemented intermittently, it has the effect of reducing the total current consumption and is also suitable for batteries and battery-driven types ing.

  In the above-described embodiment, the oscillation circuit unit and the speaker amplifier unit are provided with the switch SW1 for switching between the audio output and the oscillation circuit unit. However, the oscillation circuit unit and the switch SW1 are eliminated, and the audio output side is audible. A test output having an out-of-band frequency may be input.

  The present invention relates to a speaker drive circuit having a short-circuit and failure detection function and a detection method thereof. The speaker short-circuit detection method and the failure detection method of the speaker drive circuit can be used in all fields having a speaker drive circuit.

DESCRIPTION OF SYMBOLS 1 Speaker line 1a, 1b Each line of a speaker line 2 Speaker 3 Amplifier 4 Switch 5 CPU (central processing unit)
6 Operation unit 7 Display unit 8 Storage unit 9 Current sensor 10 Voltage sensor 21 Speaker drive circuit 22 Speaker 23 Oscillation circuit unit 24 Switch (SW1)
25 Speaker Amplifier Unit 26 Amplitude Detection Unit 27 Logic Unit 28 Audio Unit 29 Indicator Light 30 Input Unit 231 Oscillator 232 Band Pass Filter (BPF)
251 Differential signal conversion circuit 252 Fully differential amplification circuit 253 Overcurrent protection circuit 261 Differential signal conversion circuit 262 Peak hold circuit 263 Bottom hold circuit 264, 265 Comparator 271 Detection determination circuit 272 Timer circuit 273 Control circuit for speaker drive circuit

Claims (20)

In a speaker drive circuit having a speaker amplifier unit that receives sound output and outputs sound to the speaker,
An input unit intermittently supplying a test output having a frequency outside the audible band to the speaker amplifier unit;
Based on an output signal from the speaker amplifier unit, a detection unit that intermittently detects a short circuit of the speaker and a failure of the speaker drive circuit;
A short-circuit and failure detection, comprising: a determination unit that receives a signal from the detection unit, determines a short-circuit of the speaker and a failure of the speaker drive circuit, and instructs the indicator lamp to blink or turn on A speaker driving circuit having a function.   2. The speaker drive circuit having a short-circuit and failure detection function according to claim 1, wherein the input unit includes a switch for switching between the audio output and the test output.   The speaker drive circuit having a short-circuit and failure detection function according to claim 1, wherein the input unit inputs the test output instead of the audio output.   The input unit includes an oscillation circuit unit that oscillates a frequency outside a voice band or an auditory band, and the oscillation circuit unit includes an oscillator that generates the test output and a band-pass filter. A speaker drive circuit having a short-circuit and failure detection function according to claim 1, 2 or 3.   The said determination part detects the short circuit of the said speaker and the failure of the said speaker drive circuit based on the output signal of the current sensor and the said detection part of the said speaker amplifier part, The one of Claim 1 thru | or 4 characterized by the above-mentioned. Speaker driving circuit having a short-circuit and failure detection function.   6. The speaker drive circuit having a short-circuit and failure detection function according to claim 5, wherein the current sensor is an overcurrent protection circuit that detects a current flowing through the speaker amplifier.   7. The speaker drive circuit having a short-circuit and failure detection function according to claim 1, wherein the speaker amplifier section includes a switch that disconnects a band-limiting capacitor when the test output is used. . The detection unit is an amplitude detection unit that detects an output amplitude of the speaker amplifier,
A differential single conversion circuit for differential single conversion of an output signal from the speaker amplifier unit, and a peak hold circuit for DC conversion of a peak voltage after differential single conversion by the differential single conversion circuit; A bottom hold circuit that DC converts a bottom voltage after differential single conversion by the differential single conversion circuit, and a comparator that compares each DC converted voltage with a preset reference voltage. A speaker drive circuit having a short-circuit and failure detection function according to claim 1. The determination unit is a logic unit,
9. The short circuit and failure according to claim 1, wherein the logic unit includes a timer circuit for detecting the short circuit of the speaker and the failure of the speaker driving circuit intermittently. A speaker driving circuit having a detection function.   A detection determination circuit in which the logic unit performs detection determination based on an output signal from the overcurrent protection circuit, and an output of a peak hold side comparator and an output signal of the bottom hold side comparator from the amplitude detection unit The speaker drive circuit having a short-circuit and failure detection function according to claim 9. In a detection method in a speaker drive circuit having a speaker amplifier unit that receives sound output and outputs sound to a speaker,
Intermittently supplying to the speaker amplifier unit a test output having a frequency outside the audible band by the input unit;
Detecting intermittently a short circuit of the speaker and a failure of the speaker drive circuit based on an output signal from the speaker amplifier unit;
Receiving a signal from the detection unit, and determining a short circuit of the speaker and a failure of the speaker driving circuit by the determination unit, and instructing the indicator lamp to blink or turn on. A method for detecting a speaker driving circuit having a function.   12. The method for detecting a speaker drive circuit having a short-circuit and failure detection function according to claim 11, wherein the input unit switches between the audio output and the test output by a switch.   The method for detecting a speaker drive circuit having a short-circuit and failure detection function according to claim 11, wherein the input unit inputs the test output instead of the audio output.   The input unit oscillates a frequency outside a voice band or an audible band by an oscillation circuit unit, and the oscillation circuit unit includes an oscillator that generates the test output and a band-pass filter. Item 14. A method for detecting a speaker drive circuit having a short-circuit and failure detection function according to Item 11, 12 or 13.   The said determination part detects the short circuit of the said speaker and the failure of the said speaker drive circuit based on the current sensor of the said speaker amplifier part, and the output signal of the said detection part, The malfunction of the said speaker drive circuit is characterized by the above-mentioned. Method of detecting a speaker drive circuit having a function of detecting short circuit and failure.   16. The method for detecting a speaker drive circuit having a short circuit and failure detection function according to claim 15, wherein the current sensor detects a current flowing through the speaker amplifier by an overcurrent protection circuit.   17. The method for detecting a speaker drive circuit having a short-circuit and fault detection function according to claim 11, wherein the speaker amplifier section disconnects a band limiting capacitor when the test output is used by a switch. .   The amplitude detection unit of the detection unit performs differential single conversion on the output signal from the speaker amplifier unit by the differential single conversion circuit, and after the differential single conversion by the differential single conversion circuit, the peak voltage is converted to DC by the peak hold circuit. And converting the DC voltage of the bottom voltage by a bottom hold circuit after the differential single conversion by the differential single conversion circuit, and comparing each DC converted voltage with a reference voltage set in advance by a comparator. Item 18. A method for detecting a speaker drive circuit having a short-circuit and failure detection function according to any one of Items 11 to 17.   19. The short-circuit and failure detection function according to claim 11, wherein the logic unit of the determination unit intermittently detects the short-circuit of the speaker and the failure of the speaker drive circuit by a timer circuit. A method for detecting a speaker driving circuit having   The detection determination circuit of the logic unit performs detection determination based on the output signal from the overcurrent protection circuit and the output of the peak hold side comparator and the output signal of the bottom hold side comparator from the amplitude detection unit. The method for detecting a speaker drive circuit having a short-circuit and failure detection function according to claim 19, wherein the detection is performed.

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