KR0146149B1 - Two line data voice telephone system - Google Patents

Abstract

The data transmission / reception apparatus of the present invention includes a transmission matching unit for matching to two-wire lines (T) and (R) through a main unit side and a hybrid coil, and a data transmission connection unit for making a voice call and a data transmission / reception interface through the transmission matching unit. And a de-channel connector for inputting / outputting data in parallel, receiving a keyboard command through the keyboard connector, and directly accessing a data set interface of the data transfer unit, and transmitting the data transmission connector through the de-channel connector. It consists of a microprocessor for controlling, a voice call unit connected to the data transfer connection unit for voice call processing, and a data transfer unit for transmitting and receiving data to and from the data transfer connection unit and the data terminal. Can be installed easily, can use existing line, There is an effect that the microprocessor by adding the channel connection to increase the efficiency because the process data in parallel in the chair can be used as a standard device is becoming low price, di.

Description

Data transceiver

1 is a block diagram of a data / voice telephone system according to the prior art.

2 is a block diagram of a data transmission and reception apparatus according to the present invention.

3 is a detailed view of a de-channel connection according to the present invention.

4 is an explanatory diagram showing a data transfer frame according to the present invention.

5 is a main program control flow chart according to the present invention.

6 is an information exchange interrupt mode control flow diagram with a main device according to the present invention.

7 is a real-time execution statement interrupt mode control flow chart according to the present invention.

8 is a serial communication interrupt mode control flow chart according to the present invention.

＊ Explanation of symbols for main parts of drawing

11: transmission matching part 12: power supply part

13: data transmission connection 14: voice call

14-1: AD / DA Converter 14-2: Analog Call Processor

15: data transfer unit 16: data terminal

17: keyboard connection 18: microprocessor

19: De-channel connector 19-1: Bidirectional shift register

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission and reception apparatus for use in a general information communication network, and more particularly, to a data transmission and reception apparatus for enabling data transmission and reception as well as voice communication using a two-wire connection.

In communication, telephones most commonly used for data transmission and reception include general telephones for voice calls, telephones with an automatic answering function, and video telephones for video transmission and communication. There is a digital data / voice telephone capable of transmitting and receiving data along with a voice call.

As described above with reference to the accompanying drawings, a data / voice telephone used in a general information communication network is as follows.

1 is a block diagram of a conventional four-wire data / voice telephone system. As shown in FIG. 1, a transmission line P1 and P2 connected to a main device, which is a telephone exchange, and a transmission line T1 between the reception lines P3 and P4 and the present system. Matching unit (1) for matching through (T2), the power supply unit (2) for detecting the power supplied from the main unit in the matching unit (1) for the entire system power supply, and the matching A voice for making a voice call by communicating with a data transmission connection unit 3 that is connected to the calling unit 1 and performs an interface for data transmission and reception and voice signal data transmission and reception, and the voice signal data with the data transmission connection unit 3. A communication unit 4, a data transfer unit 5 for interfacing the data transfer connection unit 3 with information data, and data communication with the data transfer unit 5 in accordance with an RS-232 communication method Data terminal 6 and system It consists of a keyboard connector 7 for function selection input and a microprocessor 8 which senses the signal of the keyboard connector 7 and controls the data transfer connector 3.

The operation and problems of the conventional four-wire data / voice telephone system configured as described above are as follows.

Power is supplied from the main devices such as the exchanger through the transmission line (P1, P2) and the receiving line (P3, P4) and detects the power from the power supply unit (2) to supply power to the system. If the user selects and inputs a function to use for a normal telephone call or to transmit / receive data through (7), the input signal is recognized by the microprocessor (8) and voiced by a time division method. The data transfer connection unit 3 is controlled to simultaneously transmit and receive data.

That is, when a call is made and a desired function selection is input, the data transmission connection unit 3 connects the voice call unit 4 with the communication path to make a voice call and is also carried out by the microprocessor 8. The data is output from the data terminal 6 according to the function selection signal inputted, and in the case of data reception, the data is output from the data terminal 6 through the data transfer unit 5.

In addition, the voice call unit 4 has a digital / analog and an analog / digital converter to perform digital communication with the data transfer connection unit 3, and to perform a voice call by processing an analog voice signal for voice call. The data transfer unit 5 communicates with the data terminal 6 in an RS-232 communication manner.

In addition, the data transfer connection unit 3 and the microprocessor 8 enable the fast transfer of signals using the direct memory access (DMA) function of the microprocessor 8, wherein the data transfer connection unit 3 An interface-only (S-interface) chip is used.

However, such a conventional four-wire data / voice telephone system cannot be used because the connection to the main device is four-wire, and the data transmission connection uses an interface chip and the microprocessor must be equipped with a DMA function. There was a problem that the cost and system design cost becomes high.

Accordingly, an object of the present invention, to solve the above problems, by using a two-wire connection with the main device to use the existing telephone line roll, and add a de-channel connection to input and output data in parallel to increase the efficiency In addition, to provide a data transceiver that can be implemented at a relatively low price.

The data transmission and reception apparatus of the present invention for achieving the above object, a transmission matching unit for matching on the two-wire line (T), (R) through the main unit side and the hybrid coil, and voice call and data transmission and reception through the transmission matching unit A data transfer connector for interfacing, a de-channel connector for inputting and outputting data in parallel, a keyboard connector for receiving keyboard commands, and direct access to the data set interface of the data transfer unit; A microprocessor controlling through a de-channel connection unit, a voice call unit connected to the data transfer connection unit for voice call processing, and a data transfer unit for transmitting and receiving data to and from the data transfer connection unit and the data terminal; It is done.

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

In the present invention, the data transmitting and receiving apparatus detects the power supplied through the telephone lines T and R in the hybrid coil of the transmission matching unit 11, as shown in FIG. It is connected to the power supply unit 12, the transmission matching section 11, and transmits / receives data to the interface data transmission connection unit 13, the data transmission connection unit 13 and the analog / digital and digital / analog converter 14 -1) and a data set interface 15 for synchronous data communication with the voice call unit 14 for making a voice call through the analog call processor 14-2 and the data transfer connection unit 13; 1) and the data transfer unit 15 for asynchronous data communication with the data set interface 15-1, and the RS-232 interface 15-2 of the data transfer unit 15 in a TS-232 communication method. Data terminal that communicates data (16) and the keyboard connection unit 17 for receiving the function and control information of the system input from the keyboard and the information input to the keyboard connection unit 17 to recognize the data transmission connection unit 13 to control the main device A microprocessor 18 which communicates directly with the RS-32 interface 15-2 through a data set interface 15-1 of the data transfer unit 15 and controls the system; The microprocessor 18 and the data transfer connection unit 13 are composed of a de-channel connection unit 19 for exchanging data through a bidirectional shift register and logic. The operation and effect of the present invention configured as described above will be described below. same.

)을 출력한 후 데이타 버스를 통해 데이타를 출력하여 상기 양방향 시프트 레지스터(19-1)가 상기 데이타 전송 연결부(13)에 데이타 출력(DI)을 하게 하며, 상기 마이크로 프로세서(18)가 주장치로부터 데이타를 받을 경우, 주장치로부터 상기 데이타 전송 연결부(13)를 통해 입력되는 시작(start) 비트에 의해 인버터(I1)를 통해 상기 마이크로 프로세서(18)에 외부인터럽트(INTØ)가 발생되도록 하고, 그리고 상기 마이크로 프로세서(18)는 8비트 카운트후 카운터 인터럽트(TØ)가 발생함과 아울러 상기 양방향 시프트레지스터(19-1)에 읽기신호(

)를 출력한 후 데이타버스를 통해 데이타를 읽어 들이도록 구성되었다.3 is a detailed view of the de-channel connector 19 according to the present invention, and as shown therein, a bidirectional shift of the de-channel connector 19 when the microprocessor 18 intends to transmit data to the main device. Write command to register 19-1

After outputting the data through the data bus, the bidirectional shift register 19-1 outputs data to the data transfer connection unit 13, and the microprocessor 18 outputs data from the main device. When receiving, the external interrupt INTØ is generated in the microprocessor 18 through the inverter I1 by a start bit input from the host through the data transfer connection 13, and the micro The processor 18 generates a counter interrupt TØ after an 8-bit count and reads a signal to the bidirectional shift register 19-1.

) And then read the data over the data bus.

After connecting the de-channel connection unit 19 configured as described above, information is transferred between the main device and the key phone through the data transfer connection unit 13, and the microprocessor is connected to the bidirectional shift register 19-1 in parallel. You can increase efficiency by writing and reading data.

First, power is supplied from the main apparatus through telephone lines T and R to be detected by the power supply unit 12 to supply power to the system.

At this time, the transmission matching unit 11 is capable of two-wire connection using existing telephone lines (T) and (R) by using one hybrid matching transformer, and the data transmission connection unit 13 is a universal digital loop transceiver ( UDLT) can be used as a device capable of only the Area 1 function of the Open System Interface (OSI), where data transmitted / received through two-wire transmission paths (T) and (R) has two 64K bit second (hereinafter referred to as BPS) channels. (N3) (N4), one for voice calls and the other for data transmission and reception. In addition, the de-channel connection unit 19 is connected to the main unit by communicating in 16K BPS.

Therefore, the microprocessor 18 detects the state of the phone through the keyboard connection unit 17 and informs the main device side and receives the command of the main device to control the operation of the phone.

Voice transmission converts the analog voice signal input through the analog call processor 14-2 of the voice call unit 14 into a digital signal in an analog / digital and digital / analog converter 14-1, and then transmits the data. 64K BPS through the connection unit 13 is transmitted to the main unit through the voice call channel, and the digital voice data input from the main unit via the data transmission connection unit 13 analog / digital and digital / of the voice call unit 14 After converting the analog voice signal from the analog converter 14-1, the analog call processor 14-2 receives the voice call.

In addition, the data transmission is to communicate with the data terminal 16 connected to the RS-232 communication cable via the data transmission unit 15, and communicates, the data transmission connection unit 13 and the data transmission unit 15 of The data set interface 15-1 performs synchronous data transmission, and asynchronous data transmission with the RS-232 interface 15-2.

Therefore, the data set interface 15-1 has a function of changing synchronous data into asynchronous data and asynchronous data into synchronous data.

In addition, since the data that can be exchanged with the host device in the data transmission connection unit 13 has a transmission speed of 64K BPS, the data transmission connection unit 13 transmits data to match the transmission speed with the RS-232 interface 15-2. It changes the speed and connects the serial communication channel of the microprocessor 18 and the data set interface 15-1 to exchange the information between the microprocessor 18 and the data terminal 16 of the telephone. After resetting the data transmission link 13, data can be directly exchanged with the RS-232 interface 15-2 via the serial communication channel.

4 is an explanatory diagram for explaining a data transmission frame of the data transmission connection unit according to the present invention. As shown in the drawing, the data transmission connection unit 13 transmits 8 bits of voice call data per frame and data transmission in a time division manner. It sends 8 bits for data and 2 bits for information exchange.

Since the frame has a period of 88KHz, the voice call has 64K BPS, the data transfer has 64K BPS, and the information exchange has 16K BPS, and transmission and reception can be performed simultaneously.

In addition, the data transmission connection unit 13 also has a function of modulating and transmitting data of 144K BPS, and modulates the digital data and sends the data to the host device through the hybrid of the transmission matching unit 11, and sends the data sent from the host device to the digital device. The data is demodulated and sent to the analog / digital and digital / analog converters 14-1, the data set interface 15-1, and the de-channel connection unit 19.

Transmission lines (T) and (R) are two-wire data transmission and reception and power supply by the time division method from the main device.

In addition, the software of the microprocessor 18 is composed of a main program repeating an infinite loop and an interrupt program generated as necessary to control the system. First, the main program analyzes and executes information input from the main device, and then again. The information to be sent to the main device and the execution statement to be executed in real time are stored in the memory 100, and the same process of analyzing the information input from the data terminal and repeating the process of analyzing the information input from the keyboard.

In this case, a memory 200 for storing data to be sent to the main device and a memory 300 for storing data to be sent to the data terminal are used.

5 is a flow chart of information exchange interrupt mode control with a main device according to the present invention. Specifically, when the interrupt (INTØ) occurs due to a start bit input of data from the main device during execution of a main program, the counter is operated. 8 bit counts to access the memory 200 for storing data to be sent to the main device, and to access the memory 400 for storing data from the main device to perform data read / write.

Here, the counted 8 bits means that data input from the main device is 8 bits. In this case, data from the main device stored in the bidirectional register 19-1 is stored in the memory 400, and data to be sent back to the main device. Is read from the memory 200 and written to the bidirectional register 19-1.

In this process, information is exchanged through the de-channel connection unit 19.

6 is a real-time execution statement interrupt mode control flow chart according to the present invention, the interrupt according to the real-time execution statement occurs at a predetermined time (5m sec) period, in this case the memory 100 for storing the real-time execution statement in the main program If there is a real-time execution statement that is accessed and executed, it is executed and then returned to the main program.

7 is a flow chart of a serial communication interrupt mode control according to the present invention, which occurs when data is input from or sent to the data terminal 16, which is embedded in the microprocessor 18. When data is input from the data terminal 16 through the data set interface 15-1 through the serial communication port, the data is read and recorded in the memory 500 for storing data input to the data terminal. When data is sent to the data terminal 16, the data is read from the memory 300 storing data to be sent to the data terminal 16 and written to the serial communication buffer of the data set interface 15-1.

In this way, the ISDN telephone system can be implemented using a microprocessor and memory having a serial communication port and an interrupt function.

As described above, the present invention can communicate with the main device in two-wire type, which is convenient to install, and can use the existing line, and each device can be used as a standard device, making it cheaper and adding a de-channel connection unit. And because the microprocessor processes the data in parallel, it increases the efficiency.

Claims (3)

Transmission matching unit for matching to 2-wire lines (T) and (R) through the main unit side and hybrid coil, Data transmission connection unit for voice call and data transmission / interface interface through the transmission matching unit, and input / output data in parallel A microprocessor for receiving a keyboard command through the keyboard connection, direct access to the data set interface of the data transfer unit, and controlling the data transfer connection through the de-channel connection; And a data communication unit for transmitting and receiving data to and from the data transmission connection unit and the data terminal. The data transmitting / receiving apparatus of claim 1, wherein the de-channel connection unit is configured to transmit and output an external interrupt signal of the microprocessor while enabling parallel data input and output through a bidirectional shift register. The microprocessor of claim 1, wherein the microprocessor performs a count operation according to an external interrupt signal from the main device to perform data input / output control with the main device every 8 bits, and performs an interrupt for real-time execution statement processing at a predetermined time period. And controlling the data input / output of the data terminal by accessing the data set interface of the data transfer unit in the serial communication interrupt mode generated during data input / output of the data terminal.