KR900002535Y1 - Automatic control of modem line using busy tone from exchange - Google Patents

Abstract

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Description

Modem Online Circuit Breaker Using Busy Signal

1 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: data extract arrangement 20: modem

30: shift register 40: micom

50: relay drive circuit 60: end gate

70: line driver 80: RS-232C connector

90: line receiver 100: RS-232C interface

The present invention relates to an on-line shut-off circuit of a modem transmission line, and more particularly to a circuit for blocking the on-line by using a fire signal output from a public switched network.

In general, a modem is a modulation and demodulation device that modulates digital data and transmits a predetermined data signal to an analog transmission line. Currently, a modem is gradually being used for communication using a public switched network instead of a dedicated line.

As the modem communication using the public switched network increases, when the telephone number of the called party's telephone with modem communication equipment is called by the called party, the called party's modem is connected to the subscriber with the general telephone. Answer-Tone, which is a protocol for a few tens of seconds set by software inside the microcomputer, because the caller determines that the subscriber has a modem communication defense. Perform a magnetic function to send the

Therefore, the conventional modem circuit operated as described above is unnecessary for a response time of several tens of seconds set by software when called by a person who is a general telephone subscriber or interrupted while a ring signal is transmitted by calling from the other modem. There was a problem that the other side's caller could not call again because the modem of the receiver side was kept in the on-line state.

Therefore, the purpose of the present invention is to detect the busy tone that occurs when the other party's call modem or subscriber's telephone is miss dialing in response mode of modem and the other party's call is first dialed. (Detect) to stop the response mode of the receiving modem after a few seconds to provide an on-line shutdown circuit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram according to the present invention, which detects and outputs a ring signal input to a telephone line (Tip, Ring) and at the same time forms a data access arrangement for forming a communication path between a modem and a telephone line by a relay driving signal. Arrangement: (hereinafter referred to as DAA) 10, a modem 20 for outputting a ring signal detected by the DAA 10, converting a busy signal into a tidal clock signal, and modulating and outputting input / output data, and an initial air A shift register 30 for outputting an operation logic signal and outputting a key interrupt signal upon completion of a predetermined shift by shifting initial load data by the block output of the modem 20, and the modem 20; When the ring signal outputted from the controller is counted to match the number of rings set in the internal register, the hook-off relay control signal is output by the built-in program and the response data is output. In the microcomputer 40 for controlling the system, the relay driver 50 for driving the relay formed by the call of the DAA 10 by the off-hook relay control signal of the microcomputer 40, and the shift register 30 Outputs the transmission data input when the operation logic signal is output to the microcomputer 40, and drives the AND gate 60 and the processing data of the microcomputer 40 to interrupt the microcomputer 40 by the key interrupt signal. RS-232C (80) for connecting the line driver 70, input and output data and control data, and a line receiver (90) for transmitting the data output from the RS-232C (80) as a TTL level signal. RS-232C interface unit 100 is configured as).

Therefore, when a ring signal is input to the telephone line (Ting) terminal of the circuit configured as described above, the DDA 10 detects it and outputs it to the analog receiver RxA of the module 20. The data is output to the reception data stage RCVD of the microcomputer 40.

The microcomputer 40 which inputs the ring signal output from the modem 20 counts the ring signal input to the internal program and relays the relay drive control signal "high" when the number of rings set in the internal register is matched. (Relay Driver) The answer data is output to the modem 20.

At this time, the relay driver 50 forms a communication path by driving the relay of the DAA 10 by the relay drive control signal "high", and the modem 20 receives the response data output from the microcomputer 40 for a predetermined period. It modulates a response tone (Answer Tone: Bell, or CCITT protocol) to the other subscriber via the DAA 10's call path.

When a signal for hand-shaking is sent from the call modem of the other party within a predetermined time for transmitting the response tone, the modem 20 receives the demodulated signal through the receiving terminal RxA, demodulates it, and outputs the received data. Modem communication is connected by inputting hand-shaking data to the microcomputer 40 through the terminal RxD.

Therefore, after receiving the modem communication, the received analog signal (Receive Analog Signal) input through the DDA 10 is demodulated by the modem 20 and input to the receiving data terminal (RCVD) of the microcomputer 40, and the microcomputer. 40 outputs this to the computer (not shown) through the line labor 70 and the SR-232C connector 80.

The computer inputting the reception data outputs the transmission data to the AND gate 60 through the port TxD1 and the line receiver 90 of the RS 232C connector 80 and simultaneously outputs a modem control signal to the microcomputer 40. When outputting to the AND gate 60, the AND gate 60 logically multiplies the operation logic signal " high " Tx).

At this time, when the microcomputer 40 processes the transmission data and outputs the output data to the modem 20 through the output terminal XMT, the transmission data is modulated in the modem 20 and transmitted to the other modem unit through the call path of the DAA 10. Communication takes place.

As described above, when the ring signal is inputted through the modem 20 by calling from the other modem, the microcomputer 40 outputs a relay driving control signal of "high" logic to the relay driver 50 and outputs response data. Output to modem 20 for a time.

Therefore, the DAA 10 forms a call path by the operation of the relay driver 50, and the modem 20 modulates the voice answer data output from the microcomputer 40 to convert the "answer tone" into the call of the DAA 10. Output to the telephone line (Tip, Ring) through.

As described above, even when the handset signal cannot be transmitted due to the failure of the modem of the called party or the other party determines that it is a dial dialing, the modem 20 terminates the call. The transmission data is sent for a certain time by the built-in program to keep the transmission line on-line.

At this time, the modem 20 inputs a busy signal generated by 0.5 seconds and 0.5 seconds from the switchboard to the analog receiver RxA when the telephone line is disconnected from the other modem. The decoded output signal (EDET: Energy Detect) outputs a signal of 0.5 seconds and 0.5 seconds to the clock of the shift register 30.

The shift register 30 for inputting a busy signal detected by the modem 20 as a clock may input initial setting data (“1000 ₂ ”) input to the shift data input terminal P ₀ ← P ₃ by an input clock. Shift.

Therefore, the shift register 30 when the fourth input of Huazhong signal and the initial setting data "high" is output from the output terminal (Q ₃₎ of the terminal (P _0), which causes the output terminal (Q ₃₎ "low" The signal of is input to the end gage 60.

Therefore, the "low" signal is input to the transmission data input terminal Tx of the microcomputer 40 as a key interrupt signal, and thus the microcomputer 40 stops the function currently being executed by the embedded program and outputs the output to the modem 20. Stops outputting data and relay drive control signals.

In this case, the reason why the microcomputer 40 may assume the "low" channel from the shift register 30 as the character data is because the modem communication is asynchronous (hsync) serial communication. Low ", it is determined that it is a key interrupt and generates an interrupt. It checks the key interrupt until the inter-modem is connected by the built-in program. When the key interrupt is input, the current operation stops and returns to the initial state.

Therefore, when the call signal is terminated by the caller during the predetermined time when the ring signal is input more than a predetermined number of times, the on-line is cut off compared to the busy signal.

As described above, the present invention detects a busy signal generated by the other party as a clock when the caller hangs up at the time when the caller makes a call and sends a response tone from the receiving modem. By generating an interrupt signal, it is possible to immediately shut down the response time online and resume operation of the modem immediately.

Claims (1)

The data access arrangement 10 which forms a communication path between the modem and the telephone line by the relay drive signal while the ring signal input to the telephone line (Tip, Ring) detects and outputs a busy signal, and the transmission data and modem of the computer. In a modem online cut-off circuit using a busy signal having an RS_232C interface unit 100 for interfacing the receiver, a ring signal input from the data access arrangement 10 is simultaneously output. Converts and outputs a predetermined clock, modulates and demodulates an input / output signal, and outputs an operation logic signal in an initial state, and shifts initial load data by a clock output of the modem 20 to output a key interrupt signal. Built-in program when counting the ring signal output from the shift register 30 and the modem 20 to match the number of rings set in the internal register. The microcomputer 40 outputs an off-hook relay control signal and outputs response data, and controls the system to an initial state by inputting a key interrupt signal, and the data by the off relay control signal of the microcomputer 40. The relay driver 50 for driving the relay formed by the call arrangement of the access arrangement 10 and the key interrupt output of the shift register 30 and the transmission data having a predetermined logic are logically multiplied to output the key interrupt to the microcomputer 40. A circuit comprising the end gate (60).