JP3756536B2 - Method and apparatus for monitoring public communication line - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a public communication line monitoring method and apparatus that enable a telephone station facility to detect whether or not a public communication line is in a normal state.
[0002]
[Prior art]
For example, regarding a public communication line used for sending intrusion information obtained from a mechanical security device to a monitoring center, or a public communication line prepared in advance for sending a fire occurrence signal from a fire alarm to a fire department. It is necessary to monitor whether the public communication line is in a normal state that can be used anytime.
[0003]
For this reason, conventionally, various monitoring systems have been put into practical use so that the telephone station equipment can detect when an abnormality such as disconnection or short circuit occurs in a public communication line.
[0004]
FIG. 4 is a circuit diagram showing the configuration of this type of conventional system. Here, reference numeral 1 denotes telephone station equipment, which is connected to the terminal device 2 via public communication lines 3 and 4. Reference numeral 5 denotes an abnormality monitoring terminal device for enabling the telephone station facility 1 to detect an abnormality such as disconnection or short circuit in the public communication lines 3 and 4.
[0005]
The abnormality monitoring terminal device 5 has terminals L1 and L2 connected to the public communication lines 3 and 4, and terminals T1 and T2 connected to the terminal device 2 such as a telephone, and these terminals L1, L2, T1. , T2 are connected by jumper wires 6, 7 as shown. An oscillator 9 is connected to the jumper line 7 via a transformer TR1, and a series resonance circuit F1 that resonates with the output frequency of the oscillator 9 is connected between the jumper lines 6 and 7 at the position shown in the figure. Thus, an AC signal having a predetermined constant frequency output from the oscillator 9 is sent to the public communication lines 3 and 4.
[0006]
On the other hand, the telephone station facility 1 is provided with a receiver 10 for receiving an AC signal from the oscillator 9, and the receiver 10 is a terminal connected to the public communication line 4 via the transformer TR2. It is connected to the line on the 1B side. In addition, 12 is a public communication network, 13 is a DC power supply, and F2 is a series resonance circuit that resonates with the output frequency of the oscillator 9.
[0007]
According to this configuration, the AC signal from the oscillator 9 is sent to the receiver 10 through a path including the public communication lines 3 and 4 indicated by the symbol A. Therefore, when a communication failure such as disconnection or short circuit occurs in the public communication lines 3 and 4, the receiver 10 cannot receive an AC signal, thereby determining whether or not the public communication lines 3 and 4 are normal. It can be monitored on the telephone station facility 1 side.
[0008]
[Problems to be solved by the invention]
However, whether the AC signal from the oscillator provided on the terminal device side is constantly sent to the telephone station equipment side via the public communication line, and is this AC signal received by the receiver provided on the telephone station equipment side? In the above-described system for monitoring whether the public communication line is normal depending on whether or not, there is the following problem.
[0009]
For example, when the terminal device 2 adopts a usage mode in which one station line is grounded in an alternating manner as indicated by a dotted line in the figure, the public communication line 3 is disconnected in a direct current manner as indicated by an X mark. Even in this case, the AC signal from the oscillator 9 reaches the receiver 10 through a path not including the public communication line 3 indicated by the symbol B, and a disconnection accident that has occurred in the public communication line is reported to the telephone station. There was a possibility that the case where it cannot detect in the equipment 1 side might arise.
[0010]
An object of the present invention is to solve the above-described problems in the prior art, and the reliability of the telephone station equipment can reliably detect whether the public communication line is in a normal state. It is an object to provide a high public communication line monitoring method and apparatus.
[0011]
[Means for Solving the Problems]
Feature of the process of the present invention for solving the above problems, a method for monitoring whether a pair of a public communication line for connecting the central office equipment and the terminal apparatus is in a normal state in the central office equipment-side The terminal device detects whether a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines when the terminal device is in a standby state. or detecting whether a calling signal reception in, the pair of public communication line based on the detection result whether the predetermined normal state to determine in the terminal device side, the public communication line transmits an alternating current signal having a predetermined frequency only when it is determined to be in the predetermined normal state from the terminal device side to the pair of public network, the call state of the AC signal in the central office equipment-side Base The pair of public network can is in that as may monitor whether the normal state.
[0013]
Another feature of the present invention, there is provided a monitoring signal generating device for monitoring whether a pair of a public communication line for connecting the central office equipment and the terminal apparatus is in a normal state in the central office equipment-side, A first detection circuit for detecting whether or not a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines when the terminal device is in a standby state; A second detection circuit for detecting whether the terminal device is busy or receiving a call signal, and the pair of public communication lines are in a predetermined normal state in response to the first and second detection circuits Only when it is determined that the terminal device side includes a signal transmission means for transmitting an AC signal having a predetermined frequency to the pair of public communication lines.
[0014]
Another feature of the present invention is an apparatus for monitoring whether or not a pair of public network for connecting the central office equipment and the terminal apparatus is in a normal state in the central office equipment side, said terminal device A first detection circuit for detecting whether or not a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines when in a standby state, and the terminal device speaks A second detection circuit for detecting whether or not a call signal is being received, and in response to the first and second detection circuits, the pair of public communication lines is determined to be in a predetermined normal state. and signal sending means for sending the alternating current signal of a predetermined frequency only to the pair of public network from the terminal device side when you are, for monitoring the reception state to the central office equipment-side of the AC signal And a receiver.
[0016]
[Action]
When it is determined that the public communication line is in a predetermined normal state on the terminal device side, a predetermined AC signal is sent from the terminal device side to the telephone station equipment side via the public communication line, The incoming call of this AC signal can be confirmed on the telephone station equipment side.
[0017]
On the other hand, when it is determined on the terminal device side that the public communication line is disconnected or short-circuited and thus is not in a predetermined normal state, the transmission of the AC signal is stopped. As a result, even if a route for sending an AC signal to the telephone station equipment is formed depending on the state of the ground circuit in the terminal device or the like, the telephone station equipment cannot receive the AC signal. Thereby, it is possible to reliably monitor whether or not the public communication line is in a normal state on the telephone station equipment side.
[0018]
【Example】
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
[0019]
FIG. 1 shows an embodiment of a public communication line monitoring system according to the present invention. This public communication line monitoring system 20 determines whether or not the public communication lines 3 and 4 that connect the telephone station equipment 1 and the terminal device 2 are in a normal state, that is, the public communication lines 3 and 4 are disconnected or short-circuited. This is a system for monitoring on the telephone station facility 1 side whether or not communication is impossible. In addition, the same code | symbol is attached | subjected to the part corresponding to each part of FIG. 4 among each part of FIG. 1, and those description is abbreviate | omitted.
[0020]
What is indicated by reference numeral 30 is a monitoring signal generator for generating a monitoring signal for notifying the state of the public communication lines 3 and 4 as viewed from the terminal device 2 side to the telephone station equipment 1 side. In the illustrated embodiment, The terminal device 2 is disposed between the ground side terminal 2 </ b> A and the power source side terminal 2 </ b> B and the public communication lines 3 and 4. However, this may be incorporated in the terminal device 2.
[0021]
Referring to FIG. 2, the monitoring signal generator 30 determines whether or not the public communication lines 3 and 4 are in a predetermined normal state via the public communication lines 3 and 4 between their terminals L1 and L2. It is determined that the public communication lines 3 and 4 are in a predetermined normal state in response to an output from the determination circuit 40 and an output from the determination circuit 40. An oscillator 60 for sending an AC signal AC having a predetermined constant frequency to the public communication lines 3 and 4 only in this case.
[0022]
The output terminals 60A and 60B of the oscillator 60 are connected to the primary side winding of the transformer TR2 in which the secondary side winding is connected in series with the jumper wire 7, whereby the AC signal output from the oscillator 60 is output. AC is sent to the public communication lines 3 and 4 via the transformer TR2.
[0023]
When the public communication lines 3 and 4 are in a normal state, the discrimination circuit 40 receives a voltage of about 48 V from the power supply 13 in the telephone station facility 1 as it is as a DC signal through the public communication lines 3 and 4 and is receiving a calling signal. Fulfills the function of discriminating whether or not the public communication lines 3 and 4 are in a normal state based on the fact that an alternating call signal should be applied between the terminals L1 and L2.
[0024]
For this reason, in this embodiment, when the terminal device 2 is in the standby state, that is, when the switching contacts RA and RB of the polarity switching relay RL shown in FIG. The first detection circuit 41 for detecting whether or not a predetermined DC voltage is sent between L1 and L2 and the terminal device 2 is busy or receiving a call signal, that is, the terminal device 2 is called Or when the switching contacts RA and RB of the polarity switching relay RL are in the state indicated by the dotted lines, a first signal for detecting a DC signal or a calling signal generated between the terminals L1 and L2 is displayed. 2 detection circuit 42.
[0025]
The first detection circuit 41 has a high-resistance resistor 43 provided between the jumper wires 6 and 7 and a unidirectional photo for detecting a weak current flowing through the jumper wire 6 via the resistor 43. And a coupler 44. The photocoupler 44 includes a light emitting diode 44A and a phototransistor 44B paired with the light emitting diode 44A, and has an anode connected to the terminal L1 so that a current from the terminal L1 passes through the light emitting diode 44A. Here, in order to form a bypass passage for ensuring that a current flows from the terminal T1 to the terminal L1 when the polarity of the power source is switched on the telephone station equipment 1 side, the diode 45 has the polarity shown in the figure. Are connected in parallel with the light emitting diode 44A of the photocoupler 44.
[0026]
As a result, when the terminal device 2 is in a standby state, a weak current flows through the resistor 43 to the light emitting diode 44A. As a result, since the phototransistor 44B is turned on, the level of the input 46A of the AND gate 46 connected to the collector of the phototransistor 44B becomes “L”, and the output level of the AND gate 46 also becomes “L”. . Here, the value of the resistor 43 is a value sufficiently exceeding the “DC resistance value between both lines of the DC circuit” defined in the technical standards of the telecommunication terminal equipment stipulated in the Telecommunications Business Law. Is preferred.
[0027]
On the other hand, when the polarity is switched and the polarity switching of the power supply is executed by the polarity switching relay RL, the current flowing through the jumper wire 6 is dominantly the current flowing through the terminal device 2, but in any case. The current flows through the diode 45 in the opposite direction to the previous case, and no current flows through the light emitting diode 44A. Therefore, the phototransistor 44B is turned off, and the level of the input 46A of the AND gate 46 becomes “H”.
[0028]
Next, the configuration of the second detection circuit 42 will be described. The second detection circuit 42 detects a current flowing through the jumper line 7 during a conversation, and has a known configuration including a pair of light emitting diodes 42A and 42B connected in parallel so as to have opposite polarities, and a phototransistor 42C. This is an AC type photocoupler. Therefore, at least one of the light emitting diodes 42A or 42B emits light by a direct current or call signal that flows through the jumper line 7 during the conversation, and the phototransistor 42C becomes conductive, and the input of the AND gate 46 to which the collector circuit is connected. The level of 46B becomes “L”.
[0029]
The output of the AND gate 46 is connected to the control terminal 60C of the oscillator 60 as the output of the discrimination circuit 40. The oscillator 60 outputs the AC signal AC from the terminals 60A and 60B when the level of the control terminal 60C is “L”, but stops the output of the AC signal AC when the level of the control terminal 60C becomes “H”. It has become.
[0030]
Since the public communication line monitoring system 20 is configured as described above, when the terminal device 2 is on standby, the first detection circuit 41 detects whether the public communication lines 3 and 4 are in a normal state. In the normal state, the level of the input 46A of the AND gate 46 becomes “L”, and the output of the AC signal AC from the oscillator 60 is not stopped. Therefore, the AC signal AC reaches the receiver 10 via the public communication lines 3 and 4, thereby confirming that the public communication lines 3 and 4 are in a normal state on the telephone station facility 1 side.
[0031]
Here, when the public communication lines 3 and 4 are disconnected or short-circuited, and no current flows to the light emitting diode 44A, the output of the AND gate 46 becomes “H” level, and the AC signal AC is not output from the oscillator 60. The telephone station facility 1 can be notified that a failure has occurred in the public communication lines 3 and 4.
[0032]
Since the first detection circuit 41 is configured to detect the presence / absence of a DC signal, even when the terminal T1 is AC-grounded in the terminal device 2, the public communication lines 3 and 4 are disconnected and short-circuited. If this happens, this will be detected reliably and the transmission of the AC signal AC will be stopped, so that there is a possibility that the AC signal AC will reach the telephone station equipment via the ground circuit as in the conventional case. There is no.
[0033]
In the present embodiment, the case where the parallel connection circuit of the photocoupler 44 and the diode 45 is inserted and connected to the jumper line 6 is shown. However, as shown in FIG. Of course, it may be. However, according to the configuration shown in FIG. 2, even if the terminal T1 is grounded in a DC manner in the terminal device 2, a malfunction occurs under the situation where the public communication line 3 is disconnected. It has the advantage of not being.
[0034]
Furthermore, by using an AC type photocoupler 44 and omitting the diode 45, the function of the first detection circuit and the function of the second detection circuit can be shared by a single photocoupler .
[0035]
The second detection circuit 42 sets the output level to “L” in response to the direct current or call signal that will flow through the jumper line 7 during the conversation, and sets the output of the AND gate 46 to “L”. Therefore, if the public communication lines 3 and 4 are in a normal state, the transmission of the AC signal AC from the oscillator 60 is not stopped during the conversation. However, if an abnormal state such as disconnection or short circuit occurs in the public communication lines 3 and 4 during the conversation, neither the DC signal nor the call signal flows through the jumper line 7 and the output level of the AND gate 46 becomes “H”. . For this reason, transmission of the AC signal AC to the public communication lines 3 and 4 is stopped, and the AC signal AC cannot be received on the telephone station facility 1 side. As a result, it is possible for the telephone station facility 1 to reliably know that the public communication lines 3 and 4 are not in a normal state.
[0036]
In this way, it is determined whether or not the public communication lines 3 and 4 are in a normal state on the terminal device 2 side by detecting a signal sent from the telephone station equipment 1 side via the public communication lines 3 and 4. When the signal cannot be detected, the transmission of the AC signal AC is stopped. Therefore, a loop for transmitting the AC signal AC to the telephone station equipment side by the grounding method on the terminal device 2 side is provided in the terminal. Even if it is formed between the apparatus 2 and the telephone station equipment 1, the AC signal AC does not reach the telephone station equipment 1 side when a failure occurs in the public communication lines 3 and 4. Accordingly, the public communication lines 3 and 4 can be reliably and reliably monitored on the telephone station facility 1 side.
[0037]
In addition to the use in the state shown in FIG. 2, it is obvious that the second detection circuit 42 can be inserted at all in the middle of the jumper wire 6.
[0038]
【The invention's effect】
According to the present invention, the terminal device determines whether or not the public communication line is in a normal state by appropriate means such as presence / absence of a signal transmitted from the telephone station equipment side to the terminal device via the public communication line. However, when it is determined that the public communication line is not in a normal state, transmission of a predetermined AC signal to the public communication line is stopped. Even if a route to be sent to the telephone station equipment is formed, it is possible to reliably prevent a signal for monitoring the public communication line from being received by the telephone station equipment when the public communication line is not in a normal state. . As a result, whether or not the public communication line is in a normal state can be reliably and reliably monitored on the telephone station facility side.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing an embodiment of the present invention.
2 is a circuit diagram of the monitoring signal generator of FIG.
FIG. 3 is a circuit diagram showing a modification of the monitoring signal generator shown in FIG. 2;
FIG. 4 is a system configuration diagram showing the configuration of a conventional public communication line monitoring system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Telephone station equipment 2 Terminal device 3, 4 Public communication line 10 Receiver 13 DC power supply 20 Public communication line monitoring system 30 Monitoring signal generator 40 Discriminating circuit 41 First detection circuit 42 Second detection circuit 60 Oscillator AC AC signal

Claims (3)

A method for monitoring whether a pair of a public communication line for connecting the central office equipment and the terminal apparatus is in a normal state in the central office equipment-side,
When the terminal device is in a standby state, the terminal device detects whether a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines, and the terminal device is busy or Detect if the call signal is being received,
The pair of public communication line based on the detection result whether the predetermined normal state to determine in the terminal device side,
Only when it is determined that the public communication line is in a predetermined normal state, an AC signal having a predetermined frequency is sent from the terminal device side to the pair of public communication lines,
Monitoring method for a public communication line, characterized in that as the pair of public networks based on reception state of the AC signal in the central office equipment-side can monitor whether the normal state. A monitor signal generator for monitoring whether a pair of a public communication line for connecting the central office equipment and the terminal apparatus is in a normal state in the central office equipment-side,
A first detection circuit for detecting whether a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines when the terminal device is in a standby state;
A second detection circuit for detecting whether the terminal device is busy or receiving a call signal;
Only when it is determined that the pair of public communication lines are in a predetermined normal state in response to the first and second detection circuits, an AC signal having a predetermined frequency is transmitted from the terminal device side to the pair of public communication lines. And a signal transmission means for transmitting the monitoring signal. An apparatus for monitoring whether or not a pair of public network that connects the terminal device and the telephone station equipment is in the normal state at the central office equipment-side,
A first detection circuit for detecting whether a predetermined DC signal is sent from the telephone station equipment side through the pair of public communication lines when the terminal device is in a standby state;
A second detection circuit for detecting whether the terminal device is busy or receiving a call signal;
Only when it is determined that the pair of public communication lines are in a predetermined normal state in response to the first and second detection circuits, an AC signal having a predetermined frequency is transmitted from the terminal device side to the pair of public communication lines. A signal sending means for sending
Monitoring device of the public communication line characterized in that it comprises a receiver for monitoring the reception state to the central office equipment-side of the AC signal.

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