JP2004260408A - Disconnection detection system of speaker branch wiring in wired paging system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light-weight, compact and inexpensive disconnection detection system which is easily manufactured, capable of suppressing the generation of unnecessary sounds from a speaker at the time of detecting disconnection and capable of detecting disconnection also during the output of a sound signal. <P>SOLUTION: A test signal is sent from a main device to a plurality of speaker terminals 11 to 1N through speaker branch wiring 3. Each of the speaker terminals 11 to 1N is provided with a test signal detection circuit 8 and a one-shot pulse generation circuit 9. When the test signal is detected by the test signal detection circuit 8, a one-shot pulse is sent from the one-shot pulse generation circuit 9 as a response signal. The generation timing of one-shot pulses in one-shot pulse generation circuits 9 is mutually different. The main device detects the disconnection of the speaker branch wiring 3 on the basis of the omission or timing of the one-shot pulses. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a disconnection detection method of a speaker branch wiring in a wired paging system, and more particularly, to a disconnection of a speaker branch wiring in a wired paging system which can reduce the weight and size of hardware and can realize a low cost. Regarding the detection method.
[0002]
[Prior art]
The wired paging system is applied to, for example, an in-house wired broadcast system in a company or a dam discharge alarm device that generates an alarm from a speaker installed in a downstream area when a dam is discharged. In a wired paging system, it is important to generate information such as a warning or a message from a speaker in accordance with an instruction from a main device, and to surely transmit the information to a target person.
[0003]
However, if the speaker branch wiring from the main unit to the speaker is broken, information cannot be transmitted. The disconnection of the speaker branch wiring is detected periodically, for example, once a day, so that the disconnection of the speaker branch wiring can be detected and dealt with promptly.
[0004]
FIG. 7 is a block diagram of a disconnection detection method for speaker branch wiring in a conventional wired paging system. In the figure, the main device includes a test signal generation circuit 1 and a power amplification circuit 2.
[0005]
The test signal generation circuit 1 generates a test signal including a multi-frequency signal having a frequency of F ₁ + F ₂ +... + F _N. The power amplifying circuit 2 amplifies voice information such as an alarm or a message or a test signal from the test signal generating circuit 1 and sends it to the speaker branch wiring 3. The speaker branch wiring 3 is connected to the speakers 4 (SP _{1 to} SP _N ) on the terminal side.
[0006]
The speaker branch line 3 is branched at a portion near each speaker input end, and each branch line has a center frequency of F ₁ , F ₂ ,..., F _{N, and} a band-pass filter (BPF _{1 to} BPF _N). ) 5 and its output side is connected to a test signal line 6.
[0007]
The test signal line 6 is connected to band-pass filters (BPF _{1 to} BPF _N ) 7 whose center frequencies are F ₁ , F ₂ ,..., F _N , respectively. The band-pass filters (BPF _{1 to} BPF _N ) 7 are provided in the main device. The band-pass filters (BPF _{1 to} BPF _N ) 5 and the band-pass filters (BPF _{1 to} BPF _N ) 7 have the same electrical specifications.
[0008]
An audio signal such as a warning or a message from the main device is provided to the speakers 4 (SP _{1 to} SP _N ) via the power amplifier circuit 2 and the speaker wiring 3, and the speaker 4 generates sound.
[0009]
When detecting whether or not the speaker branch wiring 3 is disconnected, the multi-frequency signal generated by the test signal generation circuit 1 is transmitted to the speaker branch wiring 3 via the power amplification circuit 2. If the speaker branch wires 3 for all speakers are not broken, all of the multi-frequency signals are passed through the band-pass filters (BPF _{1 to} BPF _N ) 5 and the test signal lines 6, and the band-pass filters (BPF _{1 to} BPF _N ) 7. And the detection signals are obtained from all the band-pass filters (BPF _{1 to} BPF _N ) 7.
[0010]
If a disconnection has occurred in the speaker branch wiring for a specific speaker, a detection signal of the corresponding frequency cannot be obtained from the band-pass filter 7. For example, if the cause disconnection speaker branch wiring 3 for the speaker SP _2, no detection signal is obtained from the band pass filter BPF _2.
[0011]
Thus, disconnection of the speaker branch wiring 3 for a specific speaker can be detected. If a disconnection occurs in the speaker branch wiring 3 before branching to each speaker 4, it goes without saying that the detection signals are not transmitted from all the band-pass filters 7.
[0012]
[Problems to be solved by the invention]
The disconnection detection method of the speaker branch wiring in the conventional wired paging system has the above-described configuration, and the band-pass filters (BPF _{1 to} BPF _N ) 5 and 7 usually have a center frequency in the range of 200 to 2000 Hz. In addition, a passive filter that does not require power supply is used.
[0013]
FIG. 8 shows a circuit, an external structure and characteristics of a band-pass filter (BPF _{1 to} BPF _N ) used in a conventional disconnection detection method. The circuits and external structures shown in FIGS. 7A and 7B are a single band-pass filter, and FIG. 7C also shows the characteristics of the n band-pass filters. As shown in FIGS. 3A and 3B, each of the band-pass filters (BPF _{1 to} BPF _N ) includes a transformer T ₁ for impedance matching / signal level reduction, and capacitors C ₁ to C ₁ constituting a filter. having C ₃ and the inductor _L 1 ~L _3. Further, as shown in FIG. 3C, each of the band-pass filters (BPF _{1 to} BPF _N ) has a center frequency of, for example, f ₀₁ (200 Hz), f ₀₂ (300 Hz),..., F _0n. (2 KHz), the constant of each element is set.
[0014]
A band-pass filter (passive filter) used for a disconnection detection method of a speaker branch wiring in a conventional wired paging system requires a transformer for impedance matching / signal level lowering. For example, 160 mm × 80 mm × 40 mm) is large and the weight (for example, about 200 g) is heavy, so that the work of installing it in a main device or a speaker terminal was difficult.
[0015]
In recent years, the number of manufacturers who produce such band-pass filters has been reduced due to the difficulty in obtaining parts. Further, a plurality of band-pass filters used in one system have individual circuit constants. Since it is necessary to design them separately so that the center frequencies are different from each other, the number of development steps is large, and the production cost is high.
[0016]
Furthermore, when the number of speakers is large, the frequency band of the test signal must enter the audible frequency range greatly. Therefore, when the test signal is transmitted from the main device to detect a disconnection, unnecessary sound is generated from the speakers. There was also a problem that.
[0017]
SUMMARY OF THE INVENTION An object of the present invention is to provide a speaker branch wiring in a wired paging system that is lightweight, small, inexpensive, has good productivity, does not generate unnecessary sound from a speaker when disconnection is detected, and can detect disconnection even during output of an audio signal. To provide a disconnection detection method.
[0018]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides a method for transmitting an inspection signal from a main device to a plurality of speaker terminals via speaker branch wiring, and disconnecting the speaker branch wiring based on response signals from the plurality of speaker terminals. In the disconnection detection method of the speaker branch wiring in the wired paging system, each of the plurality of speaker terminals includes an inspection signal detection circuit and a one-shot pulse generation circuit, and the detection of the inspection signal by the inspection signal detection circuit. The one-shot pulse generation circuit generates a one-shot pulse as the response signal based on the one-shot pulse, and the generation timing of the one-shot pulse is different between the plurality of speaker terminals.
[0019]
In the present invention, a one-shot pulse is generated by a one-shot pulse generation circuit provided in each speaker terminal, and the generation timing of the generated one-shot pulse is made different among a plurality of speaker terminals to transmit a response signal. Therefore, it is not necessary to use a passive filter having a large shape and weight. In addition, the one-shot pulse generation circuit can be configured to be small and lightweight with a digital circuit, and the work of installing the one-shot pulse generation circuit in the speaker terminal becomes easy.
[0020]
Also, since one-shot pulses of different timings are generated from the one-shot pulse generation circuits of a plurality of speaker terminals, they can be received by a single pulse receiving circuit to determine the disconnection of the speaker branch wiring. It can be made lightweight.
[0021]
Further, in the one-shot pulse generation circuit, the generation timing of the one-shot pulse can be easily variably set, and a common circuit can be designed for a plurality of speaker terminals, so that the number of development steps can be reduced.
[0022]
Further, since the test signal may be a single low-frequency signal, it is easy to set the test signal to a frequency that is difficult to hear from the speaker.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a disconnection detection method to which the present invention is applied. The same or equivalent parts as those in FIG. 7 are denoted by the same reference numerals. In the figure, an audio signal such as an alarm or a message input to a test signal generation circuit 1 is given to a speaker 4 (SP _{1 to} SP _N ) via a power amplifier circuit 2 and a speaker branch wiring 3, and A sound is generated.
[0024]
When a test on (ON) signal is input from an external or a control unit in a wired paging system or the like, the test signal generation circuit 1 mixes the test signal with the audio signal, and outputs the signal through the power amplifier circuit 2 to the speaker. The signal is sent to the branch wiring 3. The inspection signal is a signal of a single frequency, which makes it difficult for a human to hear even when the signal is given to the speaker, the frequency characteristic of the reproduction of the speaker (reproduction F characteristic) is lowered, and even if the wiring length is long, A sine wave signal with little signal attenuation, for example, 70 Hz or about 70 Hz is preferable.
[0025]
The signal amplified by the power amplifier circuit 2 has, for example, a maximum of 100 Vrms for an audio signal and 60 Vrms for a test signal, and is supplied to the speaker terminals 11 to 1N via the speaker branch wiring 3.
[0026]
The speaker terminals 11 to 1N include a speaker 4, an inspection signal detection circuit 8, and a one-shot pulse generation circuit 9. Since the speaker terminals 11 to 1N only differ from each other in the timing at which a detection signal, which is a response signal to the input test signal, is transmitted to the test signal line 6, the following description will focus on the speaker terminal 11 mainly.
The test signal detection circuit 8 detects a test signal in the input signal, and is connected to a branch line branched from the speaker branch wiring 3 near an input end of the speaker 4. Although the specific configuration of the test signal detection circuit 8 will be described later, the current consumption is, for example, about 2 mA (0.2 W). Almost no problem.
[0028]
In addition, the inspection signal detection circuit 8 includes a power supply circuit that rectifies an input audio signal and generates power for itself and the one-shot pulse generation circuit 9. This power supply circuit generates a specified voltage when an input signal is 30 Vrms or more, for example. Since the input signal is a signal obtained by mixing the audio signal and the test signal and has a sufficient magnitude, the specified voltage is generated by the power supply circuit even if the level of the audio signal fluctuates due to the inflection of the audio.
[0029]
The inspection signal detection circuit 8 operates the one-shot pulse generation circuit 9 when detecting the inspection signal in the input signal. When activated, the one-shot pulse generation circuit 9 outputs a one-shot pulse delayed by an internally set delay value to the inspection signal line 6. The delay value in the one-shot pulse generation circuit 9 is set to be different between the speaker terminals 11 to 1N.
[0030]
The one-shot pulse output from the one-shot pulse generation circuit 9 is input to the pulse receiving circuit 10 via the inspection signal line 6. The one-shot pulse is multiplexed and output to one test signal line 6 with a delay value set for each of the speaker terminals 11 to 1N and is serially transferred.
[0031]
The pulse receiving circuit 10 is provided on the main device side and sends out a pulse received when the inspection ON signal is valid to a control circuit in the wired paging system. If a disconnection occurs in a certain speaker branch wiring, a one-shot pulse at a timing corresponding to the disconnection is not transmitted to the inspection signal line 6. Disconnection of the branch wiring 3 can be detected.
[0032]
Hereinafter, a specific example of each circuit and its operation will be described with reference to a time chart of FIG. FIG. 2 shows a specific example of the test signal generation circuit 1, and this circuit includes an addition amplification circuit 20 using an operational amplifier and a transmission circuit 21. When a test ON signal (ON: 1, OFF: 0) is input from the outside or a control unit in a wired paging system, the transmission circuit 21 outputs a test signal of, for example, a 70 Hz sine wave signal to the addition amplification circuit 20. And is configured by an IC (for example, product name NE555). The addition amplification circuit 20 adds and mixes the test signal with the input audio signal and transmits the resultant signal.
[0033]
During normal wired paging broadcasting, the test ON signal “1” is not supplied to the addition amplification circuit 20, and the addition amplification circuit 20 outputs only the audio signal and supplies it to the power amplification circuit 2. When the disconnection of the speaker branch wiring 3 is detected, the test ON signal “1” is supplied to the addition amplification circuit 20, and the addition amplification circuit 20 adds and mixes the audio signal and the test signal and supplies the mixture to the power amplification circuit 2. FIG. 6A shows an audio signal and an inspection signal transmitted by the inspection signal generation circuit 1.
[0034]
The frequency of the test signal is set to a frequency that is difficult for human ears to hear, in this example, a signal of 70 Hz, making it difficult to hear even if the test signal is given to the speaker at the time of disconnection detection. It is difficult.
[0035]
FIG. 3 shows a specific example of the inspection signal detection circuit 8, which includes a power supply circuit 30 and a signal detection circuit 31. The power supply circuit 30 rectifies the audio signal and the inspection signal sent from the power amplifier circuit 2 to the speaker 4 via the speaker branch wiring 3 to generate a DC voltage. The power supply circuit 30 of this example generates a DC voltage of +5 V when the level of the input signal is 30 Vrms. The generated DC voltage is supplied to the signal detection circuit 31 and the one-shot pulse generation circuit 9 as power. FIG. 6B shows a DC voltage generated by the power supply circuit 30.
[0036]
The signal detection circuit 31 detects a test signal in a signal transmitted through the speaker branch wiring 3 and outputs an enable signal ENB1 when the test signal exists at 30 Vrms or more. FIG. 6C shows the enable signal ENB1. The enable signal ENB1 is an operation start signal for operating the one-shot pulse generation circuit 9.
[0037]
It is assumed that the inspection signal is transmitted with a delay after the generation of the audio signal. As a result, the inspection signal is input to the signal detection circuit after the power is generated by the power supply circuit 30, and the enable signal ENB1 has a time difference for all of the one-shot pulse generation circuits 9 of the speaker terminals 11 to 1N. Are given at about the same time.
[0038]
FIG. 4 shows a specific example of the one-shot pulse generation circuit 9. This circuit includes a delay circuit 40, a delay switch 41, a pulse generation circuit 42, a clock generation circuit 43, an output buffer 49, and the like. The delay circuit 40 includes a decimal counter 44, a delay counter (hexadecimal counter) 45, a flip-flop (F / F) circuit 46, and the like. The pulse generation circuit 42 includes an F / F circuit 47, a 5 ms counter (hexadecimal counter). ) 48 and the like.
[0039]
When the enable signal ENB1 is given, the delay circuit 40 outputs the enable signal ENB2 to the pulse generation circuit 42 with a delay according to the set value of the delay switch 41. The delay is set in units of a clock obtained by counting down the clock of the clock generation circuit 43 by the decimal counter 10, and is set to a different value among the speaker terminals 11 to 1N. If the clock of the clock generation circuit 43 is, for example, 1 ms, the delay is set in units of 10 ms, such as 10 ms, 20 ms, 30 ms,. FIG. 6C shows the enable signal ENB2.
[0040]
The F / F circuit 47 of the pulse generation circuit 42 is turned on when the enable signal ENB2 rises active, and turned off when the ripple carry output of the 5 ms counter (hexadecimal counter) 48 to which the output is input is provided. Therefore, the F / F circuit 47 outputs a one-shot pulse having a width of 5 ms to the output buffer 49.
[0041]
The output buffer 49 is a driver that sends the input one-shot pulse to the pulse receiving circuit 10 via the inspection signal line 6. FIG. 6C shows a one-shot pulse.
[0042]
FIG. 5 shows a specific example of the pulse receiving circuit 10. This circuit includes a differential receiver circuit 50, a gate circuit 51, and the like. The differential receiver circuit 50 receives the one-shot pulse input from the test signal line 6 and outputs it to the gate circuit 51. The test ON signal is supplied to the gate circuit 50, and the one-shot pulse input during the period of the test ON signal “H” is output from the gate circuit 51. FIG. 6D shows the output of the pulse receiving circuit 10.
[0043]
If there is no disconnection in all the speaker branch wirings 3, the output in this example is a pulse SP1, SP2,..., SPN having a width of 5 ms (on) continuous at an interval of 5 ms (off). The disconnection of the specific speaker branch wiring 3 can be detected by the control circuit judging the missing pulse, the timing for the inspection ON signal, and the like.
[0044]
Although the embodiments of the present invention have been described above, the specific circuit configurations of the test signal generation circuit, the test signal detection circuit, the one-shot pulse generation circuit, and the pulse reception circuit are not limited to the above examples, and various modifications may be made. It is possible.
[0045]
【The invention's effect】
As is clear from the above description, according to the present invention, it is not necessary to use a passive filter having a large shape and weight, and the one-shot pulse generation circuit can be configured to be small and lightweight with a digital circuit. The work of installing it in the speaker terminal becomes easy. Further, response signals from a plurality of speaker terminals can be received only by providing one pulse receiving circuit on the main device side, and this hardware can also be made small and lightweight.
[0046]
In addition, the one-shot pulse generation circuit can design a common circuit for a plurality of speaker terminals, so that the number of development steps can be reduced, and the test signal can be easily set to a frequency that is difficult to hear from the speakers. become.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a disconnection detection system to which the present invention is applied.
FIG. 2 is a circuit diagram showing a specific example of a test signal generation circuit.
FIG. 3 is a circuit diagram showing a specific example of a test signal detection circuit.
FIG. 4 is a circuit diagram showing a specific example of a one-shot pulse generation circuit.
FIG. 5 is a circuit diagram showing a specific example of a pulse receiving circuit.
FIG. 6 is a time chart showing an example of the operation in the present invention.
FIG. 7 is a block diagram of a disconnection detection method for speaker branch wiring in a conventional wired paging system.
FIG. 8 is a diagram showing a circuit, an external structure, and characteristics of a band-pass filter used in a conventional disconnection detection method.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Test signal generation circuit, 2 ... Power amplification circuit, 3 ... Speaker branch wiring, 4 ... Speaker, 5, 7 ... Band-pass filter, 6 ... Test signal line, 8 ... inspection signal detection circuit, 9 ... one-shot pulse generation circuit, 10 ... pulse reception circuit, 20 ... addition amplification circuit, 21 ... transmission circuit, 30 ... power supply circuit, 31 ... signal detection circuit, 40 ... delay circuit, 41 ... delay switch, 42 ... pulse generation circuit, 43 ... clock generation circuit, 44 ... decimal counter, 45 ... delay Counter (hexadecimal counter), 46, 47: flip-flop (F / F) circuit, 48: 5 ms counter, 49: output buffer, 50: differential receiver, 51: gate circuit

Claims (6)

An inspection signal is transmitted from the main device to a plurality of speaker terminals via the speaker branch wiring, and a disconnection of the speaker branch wiring is detected based on a response signal from each of the plurality of speaker terminals. In the disconnection detection method,
The plurality of speaker terminals each include an inspection signal detection circuit and a one-shot pulse generation circuit, and the one-shot pulse generation circuit uses the one-shot pulse generation circuit as the response signal based on the detection of the inspection signal by the inspection signal detection circuit. The disconnection detection method of the speaker branch wiring in the wired paging system, wherein the generation timing of the one-shot pulse is different between the plurality of speaker terminals. 2. The method for detecting disconnection of a speaker branch line in a wired paging system according to claim 1, wherein the generation timing of the one-shot pulse in the one-shot pulse generation circuit can be arbitrarily set. The speaker branch in the wired paging system according to claim 1, wherein the test signal transmitted from the main device is a single low-frequency signal that is difficult to hear as sound even when the test signal is applied to a speaker. Wiring disconnection detection method. 4. The method according to claim 3, wherein the inspection signal transmitted from the main device is a sine wave signal of about 70 Hz. The test signal is transmitted later than the transmission of the audio signal from the main device to the speaker terminal, and the test signal detection circuit and the one-shot pulse generation circuit of the speaker terminal are input through the speaker branch wiring. The method for detecting disconnection of a speaker branch line in a wired paging system according to any one of claims 1 to 4, wherein the system operates using a DC voltage generated by rectifying an audio signal. 6. The apparatus according to claim 1, wherein the main device detects disconnection of the specific speaker branch wiring by determining a missing of the one-shot pulse or a timing with respect to a transmission timing of the inspection signal. A disconnection detection method for speaker branch wiring in the wired paging system according to any one of the above.

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