KR940009773B1 - Line-breaking detecting system for telephone cables - Google Patents

Abstract

The apparatus enables quick recovery by using subscriber telephone line, detecting breakdown and informing center control station without test line when telephone cable is out of order. The apparatus includes a buffer (3) for buffering input voltages, a differential voltage generator (4) comparing the buffer's output voltage and amplifying the differential voltage, 1st comparator (5) comparing the buffer's voltage with differential voltage, 2nd comparator (6) comparing buffer's voltage with the reference voltage, a control signal generator (7) producing the control signal according to line's state, a line state detector (8) detecting line's states.

Description

Disconnection detection device of telephone cable

1 is a configuration diagram of a power failure detection device of the telephone cable of the present invention.

2 is an output waveform diagram of the first matrix portion.

* Explanation of symbols for main parts of the drawings

1: Relay 2: Voltage Stabilization

3: first buffer portion 4: differential voltage generating portion

5: first comparison part 6: second comparison part

7: control signal generator 8: line state detection unit

9: constant current unit 10: voltage detection unit

The present invention relates to the detection of power failure of a telephone cable. In particular, the telephone cable of the subscriber due to the local flooding and other disasters of the telephone subscriber is disconnected or the subscriber's telephone transfer status and the inability to talk without using the test line. The present invention relates to a power cut detection device for a telephone table that detects using a furnace and notifies the central control officer visually or audibly to allow a quick cable recovery.

In general, the monitoring of telephone cable is performed by selecting several lines among the telephone cable lines laid from the telephone company to the subscriber area and using it as a test line. The condition is detected and transmitted to the central control officer.

That is, the line of the telephone cable buried from the telephone station to a region is normally used with 100,000 lines or 200,000 lines. The telephone cables buried in the area are bundled again by 200 lines, 100 lines or 50 lines, respectively, and connected to the corresponding dong of the subscriber. Here, at least one line based on 50 lines is used as a test line to monitor the state of the corresponding telephone cable. As a result, more than 2000 to 4000 test lines are needed to monitor telephone cables in an area.

For example, as described above, if there are 100 lines of telephone cables laid in each dong in the region and 80 subscriber households of the dongs are 80 households, the number of remaining telephone lines is 20 lines. Therefore, at least two of the 20 lines can be used as a test line to accurately monitor the state of the telephone cable. The remaining 18 lines can be replaced in case of failure of the telephone subscribers and the subscriber's current telephone cable. If the number of subscribers increases by 18 more than the above, additional telephone lines should be installed by the increased number of subscribers, or telephone lines must be drawn from other regions. .

In such conventional telephone cable monitoring, the more the number of test lines is used, the more accurate and reliable monitoring is possible, but the use of such a large number of test lines prevents the telephone cable from being used as the original subscriber line. The problem was the double loss of cable owners and subscribers.

Accordingly, an object of the present invention is to compare the voltage input from the cable line and the set reference voltage, using the result of the comparison and the voltage detected by the transmission from the system, the telephone cable defect due to flooding or other disasters in the subscriber area The present invention provides a disconnection detection device for a telephone cable that enables a rapid track recovery by detecting a state and a state of a telephone call and transmitting the signal to a central control officer to visually and audibly alert.

Another object of the present invention is to use the test line of the cable and the telephone line of the subscriber in common to detect the defective state and the telephone transfer state of the telephone cable without interruption to the subscriber call and to eliminate the unnecessary test line, An object of the present invention is to provide a disconnection detection device for a telephone cable that can contribute to cost reduction.

The object of the present invention as described above is a buffer unit for buffering a voltage input through a telephone line, a charge generation unit for amplifying and outputting a difference voltage by comparing the output voltage of the buffer unit, and the difference output from the difference voltage generation unit. A first comparison unit comparing a voltage and an output voltage of the buffer unit to detect a busy state, a second comparison unit comparing the output voltage of the buffer unit with a set reference voltage and outputting a resultant voltage according to the first comparison unit; And a control signal generator for generating a control signal according to the good and bad conditions of the line by logicalizing the output voltage of the second comparator, the output voltage level of the control signal generator and the difference voltage and voltage detector of the difference voltage generator. The line state detection unit detects the good and bad states of the line state by logically detecting the voltage of the detected line, and monitors, buzzers and programs the state of the line detected by the line state detection unit. It is achieved by the configuration of a microcomputer to be transmitted to the printer to tell, described in detail below with reference to the accompanying drawings of the present invention.

1 is a block diagram of an apparatus for detecting a telephone cable of the present invention. As shown in FIG. 1, a microcomputer 11 for controlling the overall operation of the telephone cable disconnection detecting system and a control pulse signal of the microcomputer 11 are sequentially performed. The matrix unit 12 for interfacing with the first and second buffer units 13 and 13a for buffering and outputting pulse signals sequentially output from the matrix unit 12, and the second and third units. The plurality of cable lines CL1-CL4 are sequentially switched by exciting the coils L1, L2, and L3 by the output signals of the buffer units 13 and 13a, and switching their switches S1-S6 on and off. A relay unit 1 selected by the controller 1, a voltage stabilizer 2 for stabilizing respective cable line voltages selected by the relay unit 1, and respective line voltages inputted through the voltage stabilizer 2; A first buffer unit 3 comprising buffers B1 to B4 for buffering and outputting the first buffer Each line voltage output from the unit 3 is compared with the comparator CP1 and the difference voltage is inputted through the resistor R1 and amplified to the predetermined level by the amplifier OP1 and the resistors R2 and R3. And a difference voltage generator 4 for comparing the difference voltage of the comparator CP1 with the reference voltage Vref6 and outputting the resultant voltage, and the difference voltage output from the difference voltage generator 4 and the first voltage. A first comparator 5 for comparing each line voltage output from the first buffer unit 3 with a comparator CP2 (CP3) and determining a busy state according to the resultant voltage; and the first buffer unit ( A first comparison unit 6 which outputs a resultant voltage by comparing the reference voltages Vref1-Vref4 set according to the line voltages and cable line states output from 3) with a comparator CP4-CP7, and the first comparison unit 6 And control the resultant voltage output from the second comparator 5 and 6 into an OR gate OR1-OR4, an AND gate AND1, AND2, AND3, and an inverter gate 11, 12. God A control signal generator 7 generating a constant current, a constant current part 9 generating a constant current of a predetermined level, and transmitting the same to the selected cable line CL1-CL4 through the relay part 1, and the constant current part 9 The voltage detection unit 10 detects the voltage output from the signal, and the voltage detected by the voltage detection unit 10 and the difference voltage output from the voltage difference generator 4 and the output signal of the control signal generator 7. The line state detection unit 8 which detects the cable line state and inputs it to the microcomputer 11, and the printer 14 and buzzer which drives, outputs, alerts and displays the cable state by driving according to the output signal of the microcomputer. 15) and the monitor 16.

The line state detecting unit 8 detects a zero voltage from the difference voltage generating unit 4 and buffers B5 to invert and buffer the zero voltage, and an inverter gate I3 to invert a signal through the buffer B5. A first signal delay unit 8a for delaying a control signal output from the microcomputer 11 to the resistor R5 and the capacitor C2 for a predetermined time, the first signal delay unit 8a and the inverter gate; An AND gate AND4 for activating the output signal of I3, a second signal delay unit 8b for delaying the output signal of the AND gate AND4 through a resistor R4 and a capacitor C1 for a predetermined time; And an AND gate AND5 for ANDing the output signal of the second signal delay unit 8b and the signal detected by the voltage detector 10, and the output signal and control signal generator 7 of the AND gate AND5. The OR gate OR5 for ORing the output signal of the OR and the output signal of the OR gate OR5 It consists of the buffer 8c input to the computer 11.

The operation and effects of the present invention configured as described above will be described in detail with reference to FIGS. 1 and 2.

Initially, the microcomputer 11 generates clock pulses as shown in Figs. 2 (a) to (b) through the output port P1 thereof to check the cable state of the region and applies them to the matrix unit 12. The matrix unit 12 interfaces the input clock pulses sequentially to the second and third buffer units 13 and 13a. Accordingly, the second and third buffer units 13 and 13a buffer the input clock pulses, and then excite the corresponding coils L1 and L2 of the relay unit 1 to switch their switches S1-S4. Will turn on.

That is, here, when the coil L2 of the relay unit 1 according to the cable state check of the region is excited by the second and third buffer units 13 and 13a, its switch S3 and S4 are turned on. When the switch S3 and S4 of the relay unit 1 are turned on, the voltage flowing through the cable line CL3 and CL4 of the region to be checked, that is, the voltage transmitted from the switching station is turned on. It is input to the switches S5 and S6 of the relay unit 1 through S3 and S4. At this time, the switch S5 or S6 is connected to its b contact b because the coil L3 of the relay is in an unexcited state.

Accordingly, the voltage input to the switches S5 and S6 is stabilized through the voltage stabilizer 2 and buffered sequentially through the buffers B1, B2, and B3 and B4 of the first buffer unit 3. And each cable buffered in the inverting terminal (-) of the comparator (CP2) (CP3) configured in the first comparison unit (5) and buffered in the buffer (B1) (B3) of the first buffer unit (3) The voltages of the lines CL3 and CL4 are input to the non-inverting terminal + and the inverting terminal − of the comparator CP1 of the difference voltage generator 4. The comparator CP1 of the difference voltage generator 4 compares each input line voltage to generate a difference voltage, and the difference voltage output from the comparator CP1 is amplified by a variable of the resistor R3. Amplified by 2 or 3 times at (OP1) and input to the non-inverting terminal (+) of the comparator (CP2) (CP3) configured in the first comparator (5) and compared with the reference voltage (Vref6) in the comparator (CP9) If the difference voltage V _AB of the comparator CP1 is smaller than the set reference voltage Vref6 at the upper side, that is, if the cable is in a good state, the comparator CP9 outputs a high pulse. The signal is output and applied to one input terminal of the AND gate AND3 of the control signal generator 7.

In addition, the comparators CP2 and CP3 of the first comparison unit 5 compare the respective line voltages output from the first buffer unit 3 with the difference voltages generated from the differential voltage generator 4. The subscriber's busy state is checked. That is, the voltage applied to the output line LA of the buffer B2 of the first buffer unit 3 and the output line LA of the buffer B4 and the output line LB of the buffer B4 is about -49.3. V, the voltage across the output line LA and the ground line LC is about -49.1V, and the voltage across the output line LB and the ground line LC is about -0.02V. In addition, when the subscriber picks up the handset of the telephone, the voltage across the output line LA (LB) is -6.4V and the voltage across the output line LA and the ground line LC is about -27.4V. The voltage across the line LB and the ground line LC is about -21V. In addition, when the subscriber lifts the handset down, that is, in the trip state, the voltage across the output line LA (LB) is -4.5V and the voltage across the output line LA and the ground line LC is about -26.8V. The voltage across the output line LB and the ground line LC is about -22.3V. In addition, when the subscriber is on a phone call, the voltage across the output line LA (LB) is -6.37V, the voltage across the output line LA and the ground line LC is about -27.84V, and the output line LB is The voltage across the ground line (LC) is approximately -21.42V. Accordingly, the comparator CP2 and CP3 of the first comparator 5 have the negative voltage of the output line LA, LB inputted to the inverting terminal thereof, as the non-inverting terminal. If the difference voltage V _AB of the input voltage difference generator 4 is less than the cable lines CL3 and CL4 are in a normal state, a high pulse signal is output, and the output lines of the buffers B2 and B4 If the negative voltage of LA (LB) is greater than the differential voltage V _{AB of the} differential voltage generator 4, the cable line CL3 (CL4) of the subscriber is in a bad state and outputs a low pulse signal. Herein, if the cable lines CL3 and CL4 are in a bad state, the low pulse signal output from the comparator CP2 and CP3 of the first comparator 5 is the OA gate OR1 of the control signal generator 7. After the logical sum is performed through the low pulse signal, the AND gate AND3 is logically multiplied by the low pulse signal together with the output signal of the comparator CP9 of the difference voltage generator 4 to the one input terminal of the OR gate OR4. Is entered.

On the other hand, the negative voltage applied to the output line LA (LB) of the first buffer unit 3 is respectively through the resistors R6 and R7 and the zener diodes ZD1 and ZD2 of the second comparison unit 6, respectively. The difference voltage V _AB which is input to the inverting terminal (-) of the comparators CP4, CP5, CP6 and CP7, and is output from the comparator CP1 of the difference voltage generator 4 is the second voltage. The inverting terminal (-) of the configured comparator CP8 of the comparator 6 is input. Accordingly, the comparators CP4, CP5, CP6, and CP7 are set according to the negative voltage and line state of the output line LA LB of the first buffer unit 3 input to the inverting terminal thereof. The reference voltages Vref1, Vref2, Vref3, and Vref4 are compared to output a high pulse signal when the negative voltage of the output line LA LB is small, that is, in a good state, and output line LA ( If the negative voltage of LB) is large, that is, in a bad state, the low pulse signal is output. The reference voltages Vref1 and Vref2 are -2.4 and the reference voltages Vref3 and Vref4 are -1.0. In addition, the reason why the reference voltage Vret3 (Vret4) is set to -1.0 at the non-inverting terminal (+) of the comparator (CP6) 9CP7 is to check the cable line state more accurately than the comparator (CP4) (CP5). to be.

On the other hand, the comparator CP8 of the second comparator 6 compares the difference voltage V _AB output from the comparator CP1 of the difference voltage generator 4 with the reference voltage Vref5 = -45. If the difference voltage V _AB is small, that is, if the subscriber's handset is up or the cable line is in good condition, a high pulse signal is output; if the difference voltage V _AB is high, that is, in a bad state, a low pulse signal is output. Done. Here, if the cable line is in a bad state, the low pulse signal output from the comparator CP4 (CP5) is logically summed into the low pulse signal through the OR gate OR2 of the control signal generator 7, and the low pulse signal The signal is inverted into a high pulse signal through the inverter gate I1 and input to one input terminal of the AND gate AND2, and the low pulse signal output from the comparator CP6 and CP7 receives the ORA OR3. The low pulse signal is ORed through the low pulse signal output from the comparator CP8 and the low pulse signal through the AND gate AND1, and then inputs to the other side of the OR gate OR4. It is input to the terminal. Therefore, the OR gate OR4 logically sums the low pulse signal through the AND gate AND1 AND3, and the OR gate OR4 is inverted into a high pulse signal through the inverter gate I2, thereby converting the AND gate (OR) into the AND gate (OR4). The AND gate AND2 is input to the other input terminal of AND2, and the AND gate AND2 is configured to AND the high pulse signal output from the OR gate OR4 and the inverter gate I1 and configured in the line state detection unit 8. At the same time, a high pulse signal is outputted to the input terminal of one side) .At the same time, a difference voltage V _AB is generated in the comparator CP1 of the difference voltage generator 4 so that the buffer B5 of the line state detection unit 8 is closed. The buffered difference voltage V _AB is inverted into a low pulse signal through the inverter gate I3 and input to one input terminal of the AND gate AND4. At this time, the microcomputer 11 periodically outputs a high pulse signal through its output port P2, and the high pulse signal is transmitted through the resistor R5 and the condenser C2 of the first signal delay unit 8a. After a predetermined time delay, the signal is input to the other input terminal of the AND gate AND4.

Therefore, the AND gate AND4 outputs a low pulse signal by ANDing the input high pulse signal and the low pulse signal, and the low pulse signal is applied to the coil L3 of the relay unit 1 to switch S5. (S6) continues to be connected to the contact b, and after a predetermined time delay through the resistor R4 and the tone capacitor Cl of the second signal delay unit 8b, one side input terminal of the AND gate AND5. Is entered. At this time, the constant current unit 9 is gradually applied to the contact point a of the relay unit 1 while gradually rising up to the set current, and is applied to the voltage detector 10. The voltage detector 10 is a constant current unit 9. If the detected voltage is -50, that is, the normal voltage, the low pulse signal is applied to the other input terminal of the AND gate AND5, and the AND gate AND5 is the voltage detector. The low pulse signal output from 10 and the low pulse signal output from the second signal delay unit 8b are logically multiplied to apply a low pulse signal to the other input terminal of the OR gate OR5. OR5 combines the high pulse signal output from the AND gate AND2 of the control signal generator 7 and the low pulse signal output from the AND gate AND5 to input the microcomputer 11 through the buffer 8c. A bad high pulse signal is input to the port P3. It is. Therefore, when the high pulse signal is detected by the line state detection unit 8, the microcomputer 11 detects that the cable line CL3 (CL4) of the corresponding region to be monitored is in a bad state, and then, through the printer 14, Print cable line faults (i.e., cable line faults due to flooding and other disasters in the area), alarm through buzzer 15, or cable line faults in the area through monitor 16 Will be displayed.

On the other hand, the telephone subscriber connected to the cable line CL3 (CL4) with the switch S3 (S4) of the relay unit 1 turned on and the switch S5 (S6) connected to its b contact b. When the transfer is performed, the switching center disconnects the voltage transmitted to the cable lines CL3 and CL4. Accordingly, no voltage flows through the cable lines CL3 and CL4, and the difference voltage V _AB output from the comparator CP1 of the difference voltage generator 4 is almost zero volts. The zero bolt is inverted and buffered by the detection inversion buffer B5 of the line state detection unit 8 and inverted to a high pulse signal through the inverter gate I3 and then the AND gate together with the high pulse signal through the first signal delay unit 8b. The AND pulsed at AND4 is delayed for a predetermined time through the second signal delay unit 8a to be applied to one input terminal of the AND gate AND5, and the coil of the relay unit 1 is applied. (L3) is excited to connect the switches S5 and S6 to the a contact a thereof. When the switches S5 and S6 are connected to their contact a, the constant current generated by the constant current unit 9 sequentially passes through the above-described switches S5 and S3 and S3 and S4, respectively. (CL3) and CL4, the voltage detector 10 detects the voltage generated by the constant current unit 9 as described above, and when the corresponding voltage is detected from the constant current unit 9, that is, the cable line CL3. If CL4 is normal, it outputs a low pulse signal.If it detects below the voltage, the cable line CL3 (( When the CL4) is shorted, the constant current generated by the constant current unit 9 gradually decreases, so that the voltage detector 10 transmits a high pulse signal to the other input terminal of the AND gate AND5 configured in the line state detector 8. Will be authorized.

Therefore, the AND gate AND5 ANDs the high pulse signal output from the voltage detector 10 and the high pulse signal output from the second signal delay unit 8a to high on one input terminal of the OR gate OR5. A pulse signal is applied, and the OR gate OR5 outputs a high pulse signal irrespective of the output signal of the control signal generator 7 applied to the other input terminal and outputs a high pulse signal through the buffer 8c. ) Is applied to the input port P3. Therefore, when the high pulse signal is detected from the line state detection unit 8, the microcomputer 11 detects that the cable line CL3 (CL4) of the corresponding region to be monitored is in a bad state and corresponds to the printer 14 through the printer 14. The cable line failure status of the area may be printed, or an alarm may be displayed through the buzzer 15, or the cable line failure status of the area may be displayed through the monitor 16. That is, even if the subscriber connected to the cable lines CL3 and CL4 is transferred, the voltage generated by the constant voltage unit 9 is detected by the voltage detector 10 and the cable line CL3 and CL4 are connected. Immediately detect flooding conditions.

As described in detail above, the present invention compares the reference voltage set up from the cable line, and using the result of the comparison and the voltage detected by the device transmitted to the flooding or other disasters in the subscriber area After detecting the defective state of telephone cable and telephone transfer, it transmits to the central control officer so that it can be visually and audibly alerted, and it is possible to recover the line quickly and use the cable test line and subscriber's telephone line in common. Defective status and call transfer status can be detected without interruption to subscriber's call and unnecessary test line can be eliminated, which can contribute to cost reduction by simplifying cable line.

Claims (5)

The microcomputer 11 for controlling the overall operation of the telephone cable disconnection detection system, the matrix unit 12 for sequentially interfacing the control pulse signal of the microcomputer 11, and the output pulse signal of the matrix unit 12. The coils L1, L2 and L3 are excited by the output signals of the second and third buffer portions 13 and 13a and the second and third buffer portions 13 and 13a. A relay unit 1 for sequentially switching a plurality of cable lines CL1-CL4 by switching the switches S1-S6 thereof, and a voltage stabilizing unit 2 for stabilizing the line voltage selected by the relay unit 1; ), The first buffer unit 3 for buffering each line voltage input through the voltage stabilizing unit 2, and the respective line voltages output from the first buffer unit 3, and the difference A differential voltage generator 4 for amplifying the voltage to a predetermined level, and a differential voltage of the differential voltage generator 4 and each of the first buffer unit 3 The first comparison unit 5 which compares the phosphorus voltage and determines the busy state according to the resultant voltage, the line voltage of each of the first buffer unit 3 and the difference voltage of the difference voltage generating unit 4 and A result output from the second comparison unit 6 and the first and second comparison units 5 and 6 comparing the reference voltages Vref1 to Vref4 set according to the cable line state and outputting the resultant voltage accordingly. The control signal generator 7 generates a control signal by logic voltage, and generates a constant level of constant current when the voltage transmission is interrupted at the switching station, and passes through the relay unit 1 to the plurality of cable lines CL1-CL4. A constant current unit 9 for transmitting, a voltage detector 10 for detecting a voltage output from the constant current unit 9 from a cable line, and a difference voltage and voltage detector 10 of the difference voltage generator 4 The microcomputer 11 detects the cable line state according to the detected voltage and the output signal of the control signal generator 7 It consists of an input line state detection unit 8, a printer 14, a buzzer 15 and a monitor 16 which drives, outputs, alerts and displays the cable state by driving according to the output signal of the microcomputer 11 Disconnection detection device for a telephone cable characterized in that. The voltage difference generator 4 is a comparator CP1 for comparing the respective line voltages output from the first buffer unit 3, and the difference voltage V _AB of the comparator CP1. And a comparator CP9 for comparing the set reference voltage Vref6 and outputting the resultant voltage, and an amplifier OP1 for amplifying the difference voltage of the comparator CP1 to a predetermined level and inputting it to the first comparator 5. Disconnection detection device for a telephone cable, characterized in that consisting of. The comparator (CP4-) according to claim 1, wherein the second comparison unit (6) compares each line voltage output from the first buffer unit (3) with a set reference voltage (Vref1-Vref4) and outputs a resultant voltage. CP7) and a comparator (CP8) for comparing the difference voltage (V _AB ) and the set reference voltage (Vref5) of the vehicle up-generation generating unit 4 and outputs the resulting voltage. Device. The control signal generator 7 connects the output of the comparator CP8 to one input of the AND gate AND1, and the output of the comparator CP6 CP7 connects the oragate OR3. The other end of the AND gate AND1 through the output of the OR gate OR4, and the output of the first comparator 5 through the ORG OR1 through the AND gate AND3. ), Connect the output of the comparator (CP9) of the differential voltage generator (4) to the other input of the AND gate (AND3), and connect the output to the other input of the OR gate (OR4). The output of the gate OR4 is connected to the input of one side of the AND gate AND2 through the inverter gate I2, and the output of the comparator CP4 CP5 is connected to the oragate OR2 and the inverter gate I1. After connecting to the other input of the AND gate (AND2), the output is input to the line state detection unit (8) Unit cell detecting device according to the cable. The line state detection unit 8 of claim 1, wherein the line state detection unit 8 detects a zero bolt from the difference voltage generator 4 and inverts and buffers the zero voltage, and an inverter gate for inverting the signal through the buffer B5. (I3), a first signal delay section (8a) for delaying a control signal output from the microcomputer (11) to a resistor (R5) and a capacitor (C2) for a predetermined time, and the first signal delay section (8a). And an AND gate AND4 for activating the output signal of the inverter gate I3, and a second signal delay unit for delaying the output signal of the AND gate AND4 by a predetermined time through the resistor R4 and the capacitor C1. (8b), an AND gate (AND5) for activating the output signal of the second signal delay section (8b) and a signal detected by the voltage detector (10), and an output signal and a control signal of the AND gate (AND5). Buffer the output signal of the OR gate OR5 for ORing the output signal of the unit 7 and Outage detection system for a telephone cable, characterized in that it consists of a buffer (8c) to enter the micro computer 11.