KR960003107B1 - Trunk inspection system for electronic switching system - Google Patents

Abstract

The device includes a microcomputer(5) controlling total system according to the level of voltage and current of tip line, ring line and sleeve line; a relay driving unit(6) connected to the microcomputer and relay so it switches the relay by using the control signal of microcomputer; a discharge unit(9) discharging the charge remained in the ring line and the tip line by switching the relay; a voltage detecting unit detecting call state of the subscriber by detecting voltages of the ring line and tip line by switching the relay.

Description

Trunk inspection control method of electronic switch and its device

1 is a configuration diagram of a trunk inspection control system of a conventional electronic exchange.

2 is a block diagram of a trunk inspection control system of the present invention.

3 is a signal flow diagram for explaining the operation of FIG.

* Explanation of symbols for main parts of the drawings

1: signal transmission unit 2,7,8: voltage detection unit

3,4 current sensing unit 5: microcomputer

6 relay drive unit 9 discharge unit

RY1-RY4: Relay T1: Matching transformer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote automatic meter reading system in an electronic switching system, and more particularly, to more accurately perform subscriber line acquisition and recovery, and to prioritize subscriber calls during subscriber call state and hook switch off. In addition, the present invention relates to a trunk inspection control method and apparatus for an electronic exchange, in which a current discharge is quickly discharged after transmission of a subscriber line, thereby enabling the transmission and reception of more accurate reading data.

In the conventional trunk inspection control system of the electronic switch, as shown in FIG. 1, the condenser for matching and transmitting various AC signals from the switch side input from the tip line TL and the ring line RL to the telephone side. A signal transmitting unit 1 composed of C1 and a transformer T1, and a voltage sensing unit connected to the primary side of the transformer T1 to detect a voltage input from the tip line TL and the ring line RL. (2), the microcomputer 5 for controlling the trunk inspection system of the electronic exchanger, the relay driver 6 for driving in accordance with the control signal of the microcomputer 5, and the output voltage of the relay driver 6 The relays RY1 and RY2 that are switched on and off and output current input from the sleeveline SL for controlling and monitoring the call, and the respective relays RY1 and RY2 and resistors R1 to R3. It is comprised as the current sensing parts 3 and 4 which detect the electric current of the sleeve line SL through.

The subscriber line acquisition process and subscriber line return process in the trunk inspection control system of the conventional electronic switch configured as described above are as follows.

In the process of capturing the subscriber line, the microcomputer 5 first outputs a control signal to the relay driver 6 to drive the relay driver 6 and turns on the relay RY1 to turn on the sleeve line SL. Is connected to a resistor R1 (R2) having a low resistance value, and the tip line TL and the ring line RL are shorted.

Accordingly, the multi-frequency code (MFC) received from the exchange side, that is, various tones, are matched by the transformer T1 of the signal transmission unit 1 through the ring line RL and the tip line TL, and transmitted to the telephone side. The voltage detecting unit 2 detects whether the reverse voltage is applied to the tip line TL and the ring line RL. It is determined that it is not input to the line RL, and dialing is performed. After the dialing is performed, it is checked whether a current flows in the sleeve line SL from the exchange side.

That is, when a signal transmitted from the exchange side is input through the relay RY1 and the resistor R1 and R2 turned on by the sleeve line SL and the relay driver 6, the current sensing unit 3 is connected to the resistor. The current of the sleeve line SL through the R1 and R2 is detected. If the current is not detected, the subscriber line is restored because the subscriber line is in an abnormal state.

Afterwards, the microcomputer 5 drives the relay driver 6 to turn on the relay RY2, and connects the sleeve line SL to a resistor R3 having a large resistance value so that the current of the sleeve line SL is increased. Is applied to the current sensing unit 4 via the relay RY2 and resistor R3 to complete the acquisition of the subscriber line.

On the other hand, the process for restoring the subscriber line first opens the loop of the tip line TL and the ring line RL, and then the microcomputer 5 turns on the relay RY1 through the relay driver 6. The sleeve line SL is connected to the resistors R1 and R2, and then the current sensing unit 3 detects a current flowing in the sleeve line SL. If the current is not detected from the sleeve line SL, Otherwise, since the subscriber line recovery is not completed, the loop of the tip line TL and the ring line RL is again opened, the sleeve line SL is connected to the resistors R1 and R2 again, and then the sleeve line SL is removed. ) Detects a current flowing through the circuit, and when the current is detected, the sleeve line SL is opened to complete the subscriber line recovery.

However, such a conventional trunk inspection control system of an electronic exchange has a problem of stopping a call by opening a tip terminal and a ring terminal in a subscriber's call state because there is no function of checking whether a subscriber is in a call state after the subscriber line is acquired. Due to the line test without removing the charges present in the lines and ring lines, there was a problem that the transmission and reception of the meter data was not smooth and the correct recovery was not performed during line recovery.

In view of the above-mentioned problems, the present invention automatically detects the subscriber call state and the on-off of the hook switch during the subscriber line acquisition and recovery, and transmits the call signal first when the subscriber is busy, and after the subscriber line acquisition, Invented a trunk inspection control method of an electronic exchanger to quickly discharge current charges remaining in a tip line and a ring line to facilitate transmission and reception of meter data. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. same.

2 is a configuration diagram of a trunk inspection control system of an electronic exchange according to the present invention. As shown in FIG. 2, the various exchange signals of the exchange side input from the tip line TL and the ring line RL are matched and transmitted to the telephone side. Signal sensing unit 1 composed of a capacitor C1 and a transformer T1, and a voltage sensing unit connected to the primary side of the transformer T1 to detect a voltage input from the tip line TL and the ring line RL. The unit 2, the microcomputer 5 for controlling the whole system for checking the trunk of the electronic exchanger, and the relay driver 6 for driving the relays RY1-RY4 on and off by driving according to the control signal of the microcomputer 5; And a voltage sensing unit (7) 8 for detecting voltages of the tip line TL and the ring line RY according to the on-off switching of the relay RY4, and the relay RY3 after the subscriber line is acquired. Discharge portion for discharging the charge remaining in the tip line TL and the ring line RL according to the on-off switching of 9) and a current sensing unit 3 (4) for detecting the current of the sleeve through the respective relays RY1 and RY2 and the resistors R1-R3.

The subscriber line acquisition process and subscriber line recovery process of the present invention configured as described above will be described in detail with reference to FIG.

The process for capturing the subscriber line is performed by first shorting the tip line TL and the ring line RL while all the lines are open, and then the microcomputer 5 outputs a control signal to the relay driver 6 to relay the driver. In addition to driving (6), the relay RY2 is turned on to connect the sleeve line SL to the resistor R3 having a high resistance value, and then the microcomputer 5 moves the relay driver 6 after a predetermined time. The relay RY2 is turned off and the relay RY1 is turned on to connect the sleeve line SL to the resistor R1 and R2 having a low resistance value.

Accordingly, the multi-frequency code (MFC) received from the exchange side, that is, various types of tones are matched in the transformer T1 of the signal transmission unit 1 through the ring line RL and the tip line TL, and transmitted to the telephone side. The microcomputer 5 turns on the relay RY4 again through the relay driver 6 and applies a reverse voltage to the tip line TL and the ring line RL from the voltage sensing units 7 and 8. If the reverse voltage is not detected, it is detected three times and if the reverse voltage is not detected until three times, the multi-frequency code on the exchange side is not inputted to the tip line TL and the ring line RL. If the reverse voltage is detected, it is determined that the multi-frequency code (MFC) on the exchange side is input to the tip line TL and the ring line RL. Perform dialing after determining that you are ready to receive a dial tone It is good.

After the dialing is performed, the microcomputer 5 turns on the relay RY2 through the relay driver 6 after a predetermined time in a state in which the tip line TL and the ring line RL are short-circuited, thereby turning the sleeve line SL on. Is connected to the resistor R3 again and the current flowing through the sleeve line SL is checked.

That is, when a signal transmitted from the exchange side is input through the relay RY2 and the resistor R3 turned on by the sleeve line SL and the relay driver 6, the microcomputer 5 receives the current sensor 4 from the current sensing unit 4. The current of the sleeve line SL is detected. If the current of the sleeve line SL is not detected, it is repeatedly detected three times. If the current is not detected until the third time is repeated, the subscriber line is in an abnormal state. After entering the routine, repeating the initial process, the subscriber line is restored, and when the current of the sleeve line SL is detected, it is determined that the subscriber line is captured and the tip line TL and the ring line RL are opened. The relay RL is turned on to discharge the electric charge remaining in the tip line TL and the ring line RL through the discharge unit 9 for a predetermined time.

After discharging the residual charge of the tip line TL and the ring line RL, the microcomputer 5 detects the voltages of the tip line TL and the ring line RL from the voltage sensing units 7 and 8. If the voltage is detected, the subscriber is in a call state or the hook switch is in the off state. Therefore, the circuit recovery routine is immediately performed. If the detected voltage is zero voltage, the subscriber line is acquired. TL) and ring terminal (R) are short-circuited to complete line acquisition, and relay (RY4) and voltage sensing unit (7) (8) are turned on to perform remote automatic metering, as well as tip line (TL) and When the voltage of the ring line RL is detected from the voltage detectors 7 and 8 and the voltage is detected, the circuit recovery routine enters the circuit recovery routine. If the voltage is not detected, the meter reading is completed.

On the other hand, the subscriber line return is performed after the meter reading is completed or when an abnormality occurs in the trunk line. The procedure is to first open the loop of the tip line TL and the ring line RL, and then the microcomputer 5 opens the relay driver 6. Turn on the relay RY2 to connect the sleeve line SL to the resistor R3 for a predetermined time, and when the predetermined time elapses, turn the relay RY2 on to the relay RY1 to lower the sleeve line SL. Is connected to the resistors R1 and R2 for a predetermined time, and a voltage (-DC) is applied to the sleeve line SL (the electronic exchange switches the subscriber's line). 5) measures the current of the sleeve line SL from the current sensing unit 3, and if there is no current, determines that the circuit recovery is successfully completed, the sleeve line SL is opened, and the recovery of the subscriber line is terminated.

As described in detail above, the present invention automatically detects the subscriber call state and the on-off of the hook switch during subscriber line acquisition and recovery, and transmits the call first when the subscriber is busy, and discharges residual charge after the subscriber line acquisition. It is effective to transmit and receive meter data more accurately.

Claims (2)

The microcomputer 5 drives the relay through the relay driver 6 and the tip line TL, ring line RL, and sleeve line sensed from the voltage sensing unit 2 and the current sensing unit 3 and 4. A trunk inspection control system that detects a voltage and a current of SL to detect a line and recovers a line, wherein the tip line TL, the ring line RL, and the sleeve line SL are in accordance with the voltage and current levels. A microcomputer 5 for controlling the entire system, a relay driver 6 connected to the microcomputer 5 and each of the relays RY ₁ to RY ₄ to switch the relay with a control signal of the microcomputer, and a subscriber line A discharge unit 9 for discharging the charge remaining in the tip line TL and the ring line RL according to the switching of the relay RY ₃ , and connected to a subscriber line according to the switching of the relay RY ₄ . It consists of a voltage detector (7) (8) for detecting the state of the call of the subscriber by detecting the voltage of the tip line (TL), ring line (RL) A trunk exchange of electronic test characterized the control device. The tip line TL and the ring line RL are short-circuited, the sleeve line SL is connected to the resistor R ₃ , and the relay line RY ₁ is turned on after a predetermined time in the step and the sleeve line SL is turned on. ) Is connected to a resistor (R ₁ ) (R ₃ ), detecting whether a reverse voltage is applied to the tip line (TL) and the ring line (RL) in the step, and the reverse voltage is not detected at the step. If not, a predetermined number of times is detected, and if a reverse voltage is detected, dialing is performed, and after the step, the sleeve line SL is connected to the resistor R ₃ in a short state of the tip line TL and the ring line RL again. And checking the current flowing through the sleeve line SL, and repeatedly detecting a predetermined number of times when there is no current in the step, and discharging the charge remaining in the tip line TL and the ring line RL when there is a current. And after the step, the microcomputer 5 detects the voltages of the tip line TL and the ring line RL to increase the voltage. If it is determined to be in a call state, if not, the line acquisition is completed, and the tip line TL and the ring line RL are short-circuited, and the voltage sensing units 7 and 8 are turned on. (7) After turning on (8) and performing a remote automatic metering to perform a line recovery if there is a voltage on the tip line (TL) and the ring line (RL), if not the former is characterized in that Control method of trunk check of exchange.

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