KR940003030B1 - Mfc signal recording prevention circuit - Google Patents

Abstract

The circuit prevents erroneous operation of an auto-answering machine caused by feedback MFC signal and ensures that the MFC signal generated by pressing dial is not recorded. The circuit includes a first switch (7) for sending MFC signal and analog signal to a tip and a ring terminal by control signal transmitted from a main controller (1), a MFC receiver (8) for generating valid bit while MFC signal is detected, a second switch (9) for cutting off MFC signal which is fed back through an MFC signal transmitter, a control unit (11) for generating channel enable signal to turn off the switch (5), and a common memory (12) for recording data to be transmitted to a main controller (1).

Description

Malfunction prevention circuit due to MFC signal input and MFC signal recording prevention circuit

1 is a circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: main controller 2: hybrid circuit

3: codec 4: ADPCM data processing unit

5: switching unit 6: MFC transmitter

7,9: 1-2 switch 8: MFC receiver

The present invention prevents a malfunction due to an MFC signal received at the time of recording in a voice mail device or an automatic answering device or fed back when a MFC (Multi Freguency Code) signal is transmitted, and the user presses the MFC signal at the time of recording. The present invention relates to a malfunction preventing circuit and an MFC signal recording preventing circuit that prevents recording.

In the conventional voice mail system or automatic response system, the input / output of the MFC signal is used as a dial signal for a telephone call in an exchange, and after the formation of a call path, the MFC signal affects the system. It was not crazy. However, as society becomes more complex and various services are developed, all calls (calls) with MFC signals are used when the end of the call is not a human system such as voice mail device (VMS) or answering machine (ARS). It is used as a very important identification data as it proceeds, and the MFC signal generated during output dialing is fed back to be recognized as a function key input, causing a malfunction. Also, the MFC signal pressed by the user during recording is recorded. there was. Accordingly, an object of the present invention is that the MFC signal received by the MFC receiver should be used as a function key input, which is fed back when the MFC signal is sent from the system, and the MFC signal is input to the function key input to prevent malfunction. It is to provide a prevention circuit.

Another object of the present invention is to provide an MFC signal recording prevention circuit that can prevent the recording of the MFC signal pressed by the user during recording.

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

It is connected to the main control unit 1 which controls the overall operation of the system and sends guidance data, and is connected to the subscriber's Tip ring terminal to detect ring signals and control the loop relay for balancing. And a hybrid circuit (2) for adjusting gain, a codec (3) connected to the hybrid circuit (2) for converting an analog signal to PCM data or a PCM data to an analog signal, and the codec (3) ADPCM data processing unit 4 for converting output PCM data into ADPCM data of 32 kbps, 1-2 buffers (B1, B2) and oragate (OR1) and the codec (3) and ADPCM data processing unit (4) A switching unit 5 for switching transmission / reception data, an MFC transmitter 6 for transmitting an MFC signal, an MFC signal transmitted from the MFC transmitter 6, and a conversion in the codec 3 Analog signal to the hybrid circuit A first switch 7 which is selectively switched by a control signal of the main control unit 1 so as to be sent to the subscriber's Tip ring terminal through the second switch; and an output from the hybrid circuit 2 MFC receiver 8 for receiving a MFC signal and outputting a bead bit signal while the MFC signal is detected, and a bead bit signal output from the MFC receiver 8 for inputting a predetermined clear signal. A flip-flop 10 for latch output so as to discriminate MFC signals by a signal, and connected between the hybrid circuit 2 and the MFC receiver 8 and controlled by the control signal of the main control unit 1. A channel for turning off the switching unit 5 by inputting a second switch 9 for blocking the feedback of the MFC signal transmitted from (6) and a beaded bit signal output from the MFC receiver 8 Outputs enable (CE) signal and distinguishes MFC signal A control unit 11 for controlling the overall operation according to the control signal of the main control unit 1, a common memory 12 connected to the main control unit 1, and storing various data; And a hard disk 13 connected to the common memory 12 to store data to be recorded.

One embodiment of the present invention based on the above configuration will be described in detail with reference to FIG. Looking at the operation to prevent the MFC signal sound is recorded during recording, when the ring signal is input to both the tip (Tip) and the ring (Ring), the hybrid circuit 2 detects the ring signal and sends it to the control unit (11).

The control unit 11 receiving the ring signal detection signal from the hybrid circuit 2 controls the hybrid circuit 2 to turn on the loop relay.

When the loop relay in the hybrid circuit 2 is turned on, data is sent to the main controller 1 through the common memory 12 to turn on the loop relay. As a result, the main controller 1 transmits guidance data through the common memory 12, and then the ADPCM data processor 4, first buffer B1, codec 3, hybrid circuit 2, and the like. It is sent to the subscriber through the path of Tip ring. The subscriber who received the guidance data transmits the service number that he / she wants to record as MFC signal, and the transmission route is the tip ring of the subscriber → hybrid circuit (2) → second switch (9) → MFC receiver (8) → flip-flop (10) → control section (11) → common memory (12) is applied to the main control section (1) and at the same time Tip ring stage → hybrid circuit (2) → codec (3) ) Is applied to the main controller 1 through the second buffer B2 → ADPCM data processing section 4 → common memory 12. Problems arise after the MFC signal received through such a path starts recording. In other words, when you finish recording, press "*" key or "#" key, so this sound is generated from subscriber's Tip ring terminal → Hybrid circuit (2) → Codec (3) → First buffer (B1) → ADPCM It is applied to the hard disk 13 through the path of the data processing section 4 → the common memory 12 to be recorded. As a result, when the subscriber listens to the recorded sound, the subscriber hears the sound of the MFC signal, which makes them feel uncomfortable.

Therefore, to eliminate this, when the MFC signal is input to the Tip ring terminal during recording, the MFC signal is received by the MFC receiver 8 through the hybrid circuit 2 and the second switch 9 so that the MFC signal is generated. During detection, a high signal, which is a bead bit signal, is output.

In the MFC receiver 8, the flop flop 10 for inputting the high signal, which is a bead bit signal, to the data terminal D is latched out. At this time, the latch thrust of the flip-flop 10 generates a clear signal each time the MFC signal is received by the controller 11 to distinguish the MFC signal, thereby clearing the flip-flop 10. The high state signal, which is a bead bit signal latched out of the flip-flop 10, is applied to an input terminal of the OR gate OR1 of the switching unit 5. At this time, the controller 11 outputs a low state signal, which is a channel enable (CE) signal, and is applied to another input of the OR gate OR1. As a result, the OR gate OR1 outputs a high signal, which is a switching control signal, to turn off the first buffer B1 and the second buffer B2. When the first buffer B1 is turned off, the MFC signal transmitted from the subscriber is not output, and thus the MFC signal can be prevented from being recorded. In addition, when the MFC signal is sent from the MFC transmitter 6 during the output dialing, the main control unit 1 generates a control signal so that the switch 7 is connected and switched from the connection terminal a to C. When the MFC signal, which is the output of the MFC transmitter 6, is transmitted through the hybrid circuit 2 to the subscriber's Tip ring terminal.

In this case, the MFC signal may be fed back from the hybrid circuit 2 and input to the MFC receiver 8 through the switch 9.

When the MFC signal fed back to the MFC receiver 8 is input, it is recognized as a function key input, and the main controller 1 commands an operation corresponding to the key input, which may cause a malfunction. Therefore, when the MFC signal is transmitted from the MFC transmitter 6, the main control unit 1 generates a switching control signal to turn off the second switch 9 to block the fed back MFC signal.

When the second switch 9 is turned off to block the MFC signal, it is possible to prevent a malfunction due to the outgoing MFC signal. As described above, the MFC signal fed back when the MFC signal is transmitted is blocked from being input to the MFC receiver, thereby preventing the MFC signal from being recorded due to the generation of the valid bit output signal to prevent the malfunction caused by the function key recognition. There is an advantage to this.

Claims (5)

In the malfunction prevention circuit due to MFC signal input of voice mail device and answering machine, main control unit 1 which controls the overall operation of the system and generates guidance data, and a subscriber's tip and ring. A hybrid circuit (2) connected to the terminal for detecting a ring signal and controlling a loop relay to adjust balancing and gain, and a hybrid circuit (2) for converting analog signals to PCM data or converting PCM data to analog signals A codec 3 to be converted, an ADPCM data processor 4 for converting PCM data output from the codec 3 into 32 kbps ADPCM data, and between the contact 3 and the ADPCM data processor 4 A switching unit 5 for switching transmission / reception data, an MFC transmitter 6 for transmitting an MFC signal, an MFC signal transmitted from the MFC transmitter 6, and an analog signal converted by the codec 3 A first switch 7 for selectively switching by a control signal of the main controller 1 so as to be transmitted to a tip and ring terminal of a subscriber through the hybrid circuit 2, and the hybrid circuit ( 2) an MFC receiver 8 which receives an MFC signal output from 2) and outputs a beaded bit signal while the MFC signal is detected, and is connected between the hybrid circuit 2 and the MFC receiver 8 and connected to the main circuit. Input the second switch 9 to block the MFC signal transmitted from the MFC transmitter 6 to receive feedback by the control signal of the control unit 1 and the bead bit signal output from the MFC receiver 8 A control unit 11 for outputting a channel enable (CE) signal for turning off the switching unit 5 and controlling overall operations according to the control signal of the main control unit 1, and the main control unit 1; Common memory (12) connected to store various data And a hard disk 13 connected to the common memory 12 to store data to be recorded, to switch to send an MFC signal, and to block a received MFC signal fed back when sending an MFC signal to prevent a malfunction. Malfunction prevention circuit due to MFC signal input, characterized in that the operation. In the MFC signal recording prevention circuit of the voice mail device and the automatic voice answering device, the main control unit 1 which controls the overall operation of the system and sends guidance data to the tip and ring terminals of the subscriber. A hybrid circuit (2) connected to detect a ring signal and control a loop relay to adjust balancing and gain, and a hybrid circuit (2) connected to convert an analog signal to PCM data or to convert PCM data to an analog signal A codec 3 and an ADPCM data processing unit 4 for converting PCM data output from the codec 3 into 32 kbps ADPCM data, and between the codec 3 and the ADPCM data processing unit 4 to transmit and receive data. The switching unit 5 for switching the MFC, the MFC transmitter 6 for transmitting the MFC signal, the MFC signal transmitted from the MFC transmitter 6 and the analog signal converted by the codec 3 are high. A first switch 7 which is selectively switched by a control signal of the main controller 1 so as to be transmitted to a subscriber tip and ring terminal through a bleed circuit 2, and the hybrid circuit 2 Is connected between the hybrid circuit 2 and the MFC receiver 8 and receives the MFC signal outputted from the MFC signal and outputs a belt bit signal while the MFC signal is detected. The second switch 9 for blocking the MFC signal transmitted from the MFC transmitter 6 from receiving feedback by the control signal of 1) and a valid bit signal output from the MFC receiver 8 are inputted to the A control unit 11 for outputting a channel enable (CE) signal for turning off the switching unit 5 and controlling overall operations according to a control signal of the main control unit 1, and connected to the main control unit 1 A common memory 12 for storing various kinds of data, and the common A hard disk 13 connected to the memory 12 to store data to be recorded, and when a ring signal is detected from the subscriber, outputs a control signal and transmits guidance data while the loop relay is turned on. When the number is received by the MFC signal, recording starts, and when an MFC signal is started and the recording is terminated, a bead beat signal is output to block the MFC signal that is transmitted to prevent recording. Signal recording prevention circuit. In the circuit for preventing malfunction due to the MFC signal input of the audio mail device and the answering machine equipped with the main control unit 1, the terminal is connected to the Tip and Ring terminals of the subscriber to detect the ring signal and A hybrid circuit 2 for controlling balancing and gain, a codec 3 connected to the hybrid circuit 2 for converting an analog signal to PCM data or a PCM data to an analog signal, and the codec 3 ADPCM data processing unit 4 for converting PCM data outputted from the PC into ADPCM data, MFC transmitter 6 for transmitting MFC signal, MFC signal transmitted from MFC transmitter 6 and codec 3 The first switch 7 for selectively switching by the control signal of the main control unit 1 in order to send the analog signal converted from the subscriber to the tip (Tip), Ring (Ring) terminal through the hybrid circuit (2) And the hybrid An MFC receiver 8 which receives the MFC signal output from the circuit 2 and outputs a Belit bit signal while the MFC signal is detected, and is connected between the hybrid circuit 2 and the MFC receiver 8 The second switch 9 which blocks the MFC signal transmitted from the MFC transmitter 6 from being feedbacked by the control signal of the main controller 1 and the valid bit signal output from the MFC receiver 8 are input. And a control unit (11) for controlling the overall operation in response to the control signal of the main control unit (1). In the MFC signal recording prevention circuit of the voice mail apparatus and the answering machine equipped with the main controller 1, connected to the tip and ring terminals of the subscriber, the ring signal is detected, and the loop relay is controlled and balanced. And a hybrid circuit (2) for adjusting gain, a codec (3) connected to the hybrid circuit (2) for converting an analog signal into PCM data or a PCM data into an analog signal, and an output from the codec (3). An ADPCM data processing unit 4 for converting PCM data to 32 kbps ADPCM data, a switching unit 5 for switching between the codec 3 and the ADPCM data processing unit 4 for switching transmission and reception data, and an MFC signal; MFC transmitter 6 for transmitting a signal, MFC signal transmitted from the MFC transmitter 6, and an analog signal converted by the codec 3 through the hybrid circuit 2 of the subscriber's tip and ring. To send to (Ring) terminal MFC receiving the first switch 7 selectively switched by the control signal of the main controller 1 and the MFC signal output from the hybrid circuit 2, and outputting a belt bit signal while the MFC signal is detected. A channel 8 signal for turning off the switching unit 5 is input by inputting a bead bit signal output from the receiver 8 and the MFC receiver 8 to control the main control unit 1. MFC signal recording prevention circuit, characterized in that the control unit 11 for controlling the overall operation in accordance with the signal. 5. The switching control of claim 4, wherein the switching unit 5 outputs a switching control signal by ORing the valid bit signal and the channel enable signal CE, and the switching control of the OR gate OR1. MFC signal recording prevention circuit, characterized in that the first to second buffer (B1, B2) for transmitting and receiving the ADPCM data and PCM data by a signal.