KR870001637B1 - Voice data automatic mixer apparatus - Google Patents

Abstract

This invention relates to a voice data automatic mixer which make data transmission and reciving and voice communication possible automatically in time intervals. And the main office should have a main computer and MODEM, the branch one need Modem and computer terminals. The voice telephone circuits contain a control and data detection member. So when the data is on lines. the voice communication is off and the alarms are generated for data processings. Now the latter(=data detector) searches data signals through transmission and receiving MODEM and permits control parts to activate an automatic exchanger.

Description

Automatic voice data mixing device using online data line

1 is a configuration diagram of the use state of the present invention.

2 is a detection operation schematic diagram of a voice communication apparatus according to the present invention.

3 is a circuit diagram of one embodiment of the present invention.

4 is a circuit diagram of an embodiment of a data detector according to the present invention.

5 is a circuit diagram of another embodiment of a data detection unit of the present invention.

* Explanation of symbols for main parts of the drawings

A ₁ : data detector circuit A ₂ : call signal generator circuit

A ₃ : incoming and dial signal conversion circuit

B ₁ : Bridge Diode IC ₁ : Inverter Integrated Circuit

IC ₂ : Unstable Multivibrator Integrated Circuit

IC ₃ : Integrated Circuit of Inverter IC ₄ : And Gate Integrated Circuit

IC ₅ : inverter integrated circuit IC ₆ : AND gate integrated circuit

IC ₇ : OR gate integrated circuit IC ₈ : OR gate integrated circuit

IC ₉ -IC ₁₀ : Counter integrated circuit

IC ₁₁ : Unstable Multivibrator Integrated Circuits

IC ₁₂ : Counter Integrated Circuit

IC ₁₃ : Bistable Multivibrator Integrated Circuit

IC ₁₄ -IC ₁₅ : Monostable Multivibrator Integrated Circuit

IC ₁₆ -IC ₁₇ : Counter Integrated Circuit

IC ₁₈ : Bistable Multivibrator Integrated Circuit

IC ₁₉ : Bistable Multivibrator (Flip-Flop) Integrated Circuit

OP ₁ -OP ₇ : Operational Amplifier PC ₁ : Photo Coupler

SW ₁ -SW ₄ : Analog Switch T ₁ -T ₃ : Trans

TR ₁ -TR ₆ : Inverter Transistor PABX: Auto Switchboard

TXD: Transmitted Date

TXC: Transmitted Clock

RTS: Request to Send

CTS: Clear to Send

The present invention relates to installing a voice call device on an online data communication line so as to automate a conventional non-automatic method used only when data communication is not used, so that a voice call can be mixed with data communication at the same time.

Conventional online data communication line mainly used data-oriented communication due to the nature of online, but it is less than the amount of data communication over the whole time, and voice call device is installed and used by intermittent voice call. However, this device is a simple configuration that should stop the data communication when the configuration is used during data communication, so it is inefficient to use the designated data communication non-use time zone (arbitrarily set) and is created in the middle of communication even in the data communication use time zone. The non-use time zone is not economical in terms of paying a huge line fee because the data communication line becomes easy.

The present invention is characterized in that the voice call device installed in the current online data communication line is configured to be efficient and automated from the inefficient and passive type as described above. In order to allow subscribers in the premises to detect the use of data communication and communicate only when not in use, the data communication usage status is recognized by the existing voice communication device. During use, it detects the use of data communication to enable the use of voice calls and brakes the automated device for voice call. This makes it possible to perform data communication in unused data communication time zones without causing any trouble in data communication communication. By using the line automatically and without any time, it is possible to make the voice call between points more economically than the separate online type phone call, and the efficient use of the data communication line as well as the separate dedicated voice call. The purpose is to secure the line.

Hereinafter, the present invention will be described in detail with reference to an embodiment.

As shown in Fig. 1, the basic state of use of the voice call apparatus to which the present invention is implemented is composed of a main computer and a modem (modulation / demodulator. MODEM) of the main office, which is a known online data communication network, and a modem and a terminal computer of the branch office. In the present invention, between the point-to-point modems, the present invention provides a voice communication device additional installation structure. As shown in FIG. 2, the present invention further comprises a control unit and a data detection unit in the voice communication device circuit, and transmits a modem transmission to the data detection unit. When the controller recognizes the data signal on the receiving side and confirms the use, the control unit is configured to control the automatic switch.Then, the voice call line is disconnected while the data is in use and the voice signal is generated during the data non-use. It is a basic configuration to connect.

When the configuration of the present invention is described in the voice communication device circuit of one embodiment as shown in Figs. 3 to 5, the basic configuration of the operation is to detect the use of data communication, and the data communication use detection method is various. Although the most effective detection method, there is a comparison between the long pulse, which is a signal in data communication, and the short pulse, which is a signal in non-use. In other words, the polling signal, an RS-232C interface signal between the host computer and the modem, is used. ) And a data detector A ₁ which compares and detects a pulse signal of a shorter or more constant shape than a data signal in use and a data pulse signal that is longer and inconsistent than that of the data signal in use. Busy tone transmitting unit and data busy during data use by calling signal Site when not in use, the call signal is generated which, by signals exchanged contralateral break the circuit of the modem transmission, the receiving side when transmitting a call signal to the telephone in a voice call transmission, the receiving side of the circuit opening and at the same time point-side portion (A ₂₎ And the incoming and outgoing dial signal converting section A _{3 which} operates upon answering or calling at the branch side as a basic configuration. In the configuration of FIG. 3, when a call signal is input from the automatic switching station PABX to both ends of the connection point (a), it is rectified by the bridge rectifying diode B ₁ and the photo coupler PC ₁ emits light to cause the photo coupler to emit light. (PC) By turning on the TR of the light-receiving unit, it makes a "Low" state at the input of the integrated circuit IC ₁ , "Hi" is maintained at the output side, and the switch SW6 is "on", and the call signal generator A ₂ ) And at the same time maintaining the output of the integrated circuit (IC ₂ ) to the integrated circuit (IC ₄ ) while maintaining the output of "Hi" for a predetermined time, if the output of the data detection unit (A ₁ ) is "Hi" (when using data) The output of the integrated circuit (IC ₄ ) becomes "Hi" to operate the switch (SW ₁ ) and to operate the TR ₁ through the integrated circuit (IC ₈ ) to connect the relay's "Di" contact to the automatic switchboard (PABX). ) to give the status of the response made by configuring the side of one circuit at the same time open the in-use guide tone (busy tone) by a switch (SW ₁₎ works And it supplies it to the amplifier (OP ₇₎ through an automatic exchange in an open circuit condition for (PABX).

Conversely, no data detection section (A ₁₎ the operation of the "Low" when opposed to the switch (SW ₁₎ as an integrated circuit because it is above the output is "Low" for (IC ₄₎ outputs the data non-commercial are signals in, and The "Di" contact of the relay also continues the paging signal on the PABX side. At this time, since the output of the data detector A ₁ is "Low", the output of the integrated circuit IC ₅ becomes "Hi" and is supplied to the input of the integrated circuit IC ₆ , and thus "Hi" in the integrated circuit IC ₁ . By supplying the signal "Hi" to the integrated circuit IC ₇ by the integrated circuit IC ₁ by the signal, the switch SW ₆ and the switch SW ₃ are operated so that the call signal generator A ₂ is an operational amplifier ( The call signal is sent to the transmitter through OP ₂ ). When the response signal arrives at the receiver according to the transmission signal, the "Di" contact of the relay is operated by the incoming and dial signal conversion unit A ₃ via the operational amplifier OP ₅ via the integrated circuit IC ₈ . In addition, the switch (SW ₄ ) and the switch (SW ₃ ) is operated to maintain the call state while closing the modem transmission and reception. On the contrary, at the end of the voice call, the switch SW ₃ (SW ₄ ) is returned to its original state by the incoming and dial signal changing unit A ₃ , and the "Di" contact of the relay is disconnected to make the call waiting. The circuits on the sending and receiving sides are connected to enable data communication. Circuit and the operating configuration of the main operation causes the data detector (A ₁₎ for controlling this operation is the fourth even-Looking at the status bar hayeotneun provides the embodiment of claim 5 is also an integrated circuit (IC ₉ in the fourth Fig. ) Is cascaded with the same counter integrated circuit IC ₁₀ as a counter and the integrated circuit IC ₁₁ generates a continuous pulse as a non-stable far vibrator to supply the counter integrated circuit IC ₁₂ and output its output. D ”flip-flop integrated circuit (IC ₁₃ ) is configured to supply, so when there is no output of integrated circuit (IC ₁₀ ), the integrated circuit (IC ₁₃ ) output remains in the“ Low ”state and the transmit request signal (RTS) When the input to the TR ₃ integrated circuit (IC ₉₎ and (IC ₁₀₎ is in operational state the transmission data signal (TXD) is supplied to TR ₄ supplied to the input of the integrated circuit (IC ₉₎ integrated circuit (IC ₉ IC ₁₀ is activated. At this time, since the number of transmit data TXD signal pulses is large during data communication, the output of the integrated circuit IC ₁₀ is made "Hi", and the integrated circuit IC ₁₂ (IC ₁₃ ) which is still in operation is reset to reset the integrated circuit IC. ₁₃ ) to keep the output of "Hi". On the contrary, when the number of transmit data TXD signal pulses is small (not in use), the output of the integrated circuit IC ₁₃ remains "Low" after a predetermined time depending on the state of "Low" of the output of the integrated circuit IC ₁₀ . do.

In this configuration, if a long pulse, which is a data pulse, is detected within a predetermined unit of time, it is determined that it is in use and detects the presence or absence of data communication. In another embodiment, in FIG. 5, a short pulse is detected after the data pulse tension pulse is detected. As a method of determining up to being in use, the configuration is connected to a counter integrated circuit (IC ₁₆ ) (IC ₁₇ ) cascaded and supplied to the same integrated circuit (IC ₁₉ ) via a "D" flip-flop integrated circuit (IC ₁₈ ) and positive. the trigger monostable multivibrator integrated circuit and its output connected to the input side of the (IC ₁₄₎ for outputting the output type and negative monostable multivibrator integrated circuit (IC ₁₅₎ that is triggered integrated circuit (IC ₁₉₎ of the integrated circuit ( Connected to the reset (R) input of IC ₁₆ ) (IC ₁₇ ) (IC ₁₈ ), if the transmit request signal (RTS), which is a "Hi" signal, is recorded in TR ₅ , the input of integrated circuit (IC ₁₄ ) is " LOW "and go out Is when the change not input to the TR ₆ transmit data signal (TXD) is a counter integrated circuit (IC _16), the operation output is "LOW" of when the integrated circuit (IC ₁₇₎ the end of polril signal pulse (non-use signal) input The output of the integrated circuit IC ₁₈ is supplied to the "D input" of the "D" polar flop integrated circuit IC _{19 in a} "LOW" state. The clock of the "D" poly-flop integrated circuit (IC ₁₉₎ as a one-shot pulse state output for a period of time of the integrated circuit (IC ₁₄₎ when the request to send signal (RTS) is terminated is "LOW" signal is input to the TR ₅ ( C) As the final output (OUT) is supplied to the input and becomes "LOW", the output of the integrated circuit (IC ₁₄ ) is changed from "Hi" to "LOW" and the integrated circuit (IC ₁₅ ) is operated to output the single pulse. Reset the integrated circuits IC ₁₆ (IC ₁₇ ) (IC ₁₈ ), respectively. On the contrary, when the long pulse (when data is used), which is a data transmission signal, is input to TR ⁹ , the counter integrated circuit IC ₁₆ is operated so that the output of the integrated circuit IC ₁₇ is in the "Hi" state. The output OUT of the flop integrated circuit IC ₁₉ becomes "Hi". The "LOW" and "Hi" signals of the data detection unit A ₁ of each of these embodiments are the control unit of the voice call automatic apparatus of FIG. 3 as described above, and become a data-oriented communication network in the related art. In addition to the disadvantages of being left uneconomical and the disadvantage of not being able to use voice calls freely, the data communication is always used as it is, while the non-use of data communication has the advantage of automatically conducting voice calls at all times.

Claims (3)

In the voice call device additionally installed in the online data communication line, a detection unit for detecting the use of data communication, a control unit for controlling the automatic switchboard, and an auto exchanger junction are configured accordingly. It is necessary to disconnect the connection with the stand and establish the line of modem transmission and reception side.In case of not using data communication, the control unit disconnects the line of modem transmission and reception side and establish the line between the auto switchboard and the point according to the signal of the detector. Automatic voice data mixing device using on-line data communication line. The configuration according to claim 1, wherein the detection unit detects data pulses in use and in data usage in a unit time by grasping data pulses having a long pulse and irregular shape in a unit time compared to a polling signal that is a non-use interface signal. The method of claim 1, wherein the configuration of the detection unit is determined to be in the use state until input of the polling signal during non-use when the data signal is detected on the line, and is set to be in the non-use state until the input of the data use signal when the polling signal during the non-use is input. Configuration.

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