KR890008582Y1 - Asynchronising modem - Google Patents

Abstract

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Description

Asynchronous Communication Modem

1 is a block diagram according to the present invention.

2 is a detailed circuit diagram of one embodiment of the block diagram of FIG.

* Explanation of symbols for main parts of the drawings

10: serial asynchronous communication interface circuit 20: control circuit

30: modem transmission and reception unit 40: transmission and reception data conversion output unit

50: RS-232C interface switching unit

The present invention relates to a modem (Nodem) circuit, and more particularly to a modem circuit for asynchronous communication to enable asynchronous communication with the modem using only one expansion slot (slot) of the personal computer.

In general, with the massive deposit of personal computers (PCs), the demand for data transmission through PCs is rapidly increasing. Also, equipments such as modems are used to transfer data between PCs and computers using public air. It is well known that it must be used.

The conventional modem having the above purpose has been developed as an external type attached to the outside of the PC, but is gradually being developed as a built-in type to be installed inside using the PC itself slot.

In the case of the built-in modem, only the communication unit is selected, which means that the modem itself can be selected to be used for transmission and reception. However, the modem cannot be asynchronous serial communication (RS-232C).

In addition, PC manufacturers currently sell RS-232C cards, which are asynchronous serial communication cards, as optional items, so in order to asynchronously communicate with PCs and other PCs, RS-232C cards are purchased separately. Has been.

Therefore, there has been a problem of occupying a lot of expansion slots of a PC for modem communication and asynchronous serial communication. Accordingly, an object of the present invention is to provide a built-in modem circuit for both asynchronous communication and asynchronous serial communication with another terminal using a modem using only one expansion slot of a PC.

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

1 is a block diagram of an asynchronous communication modem circuit according to the present invention, the internal expansion slot (personal computer extension slot: slot) of the PC that connects the input and output data of the PC and outputs the output address and the control signal of the PC ( A serial asynchronous communication interface circuit (10) for inputting an address and a control signal outputted from the slot (PES), and converting data with the slot (PES) in parallel and parallel by an asynchronous speed transfer method; At the same time, it automatically accesses the default data to perform a predetermined function without any special command during initial startup, and inputs data and control signals outputted from the serial asynchronous communication interface circuit 10 to determine data and transmit and receive data. A control circuit unit 20 for controlling data and outputting a control signal, and a transmission frame output from the control circuit unit 20 The control circuit unit 20 inputs data and a control signal, modulates the transmission data according to a signal processed according to a program, scrambles it, outputs it serially, demodulates the input serial reception data, descrambles it, and converts it into parallel data. Modem transmitting and receiving unit 30 and the output and output data of the modem transmitting and receiving unit 30 by converting the digital or analog signal to filter and monitor the transmission and reception status and transmit and receive modem transmission and reception data through the telephone air line Transmitting / receiving data conversion output section 40 and RS-232C interface switching 50 to interface the output of the serial asynchronous communication interface circuit 10 by the control signal of the control circuit section 20.

Therefore, when the system is turned on, the control circuit unit 20 accesses the default data, monitors various audio signals (Flag), loads a phone number, and a setting value that meets the CCITT or Bell standards.

At this time, the modem transmit / receive data and the control signal of the PC are output from the slot (PES) to the serial asynchronous communication interface circuit 10, which is converted into asynchronous serial data and input to the control circuit unit 20 together with the transmission control signal.

The control circuit unit 20 inputting the transmission data and the control signal output from the serial asynchronous communication interface circuit 10 determines the input data and outputs a predetermined control signal to the modem transmitter / receiver unit 30 simultaneously. Converts the parallel data into a modem transmitter 30 and outputs the same.

Meanwhile, the modem transmitter / receiver 30 modulates and scrambles the transmitted data, which is enabled by the control signal output from the control circuit unit 20, and inputs the data to the transmit / receive data conversion output unit 40 as serial data.

In addition, the transmission and reception data conversion output unit 40 which is modulated by the modem transmission and reception unit 30 and then scrambled transmission data is converted to analog signals and filtered to filter only the signals of the band determined according to the transmission rate. Send through.

On the other hand, the analog signal transmitted from the other party's modem and input to the transceiving conversion output unit 40 is filtered only for a predetermined band, converted into a serial digital signal, and output to the modem transmitting and receiving unit 30.

At this time, the modem transmitter / receiver unit 30 that has input the serial reception data converted into the digital signal is demodulated to the original data, descrambled, converted into parallel data, and outputted to the control circuit unit 20.

The control circuit unit 20 that demodulates the descrambled parallel reception data in the transmission / reception modem unit 30 and checks whether the received data has arrived, converts the received data into serial data, and converts the received data into serial data. Output to the serial asynchronous communication interface circuit (10).

Therefore, the serial asynchronous communication interface furnace 10 converts the received data input by the control signal into parallel data and transmits it to the PC through the slot PES.

On the other hand, when the PC outputs asynchronous communication data and control signals, not modem transmission data, to the serial asynchronous communication interface circuit 10 through the slot (PES), the serial asynchronous communication interface circuit 10 converts the serial data into serial data to provide a predetermined value. The control signal is output to the control circuit unit 20 and the RS-232C interface switching unit 50.

At this time, the control circuit unit 20 that inputs the asynchronous serial transmission data and the control signal checks the data and stops outputting the control signal output to the modem transmission and reception unit 30 when it determines that the asynchronous serial transmission data is the modem transmission and reception unit 30. Disable and output a predetermined control signal to the RS-232C interface switching unit 50 to enable it.

Therefore, the data converted in series from the serial asynchronous communication interface circuit unit 10 is line-driven and output through the RS-232C interface switching unit 50, and the received data input through the RS-232C cable is line-received and serial asynchronous communication interface circuit. It is inputted by (10).

FIG. 2 is a detailed circuit diagram of an embodiment of the block diagram of FIG. 1, which connects input / output data of a PC and outputs a PC address and control signal, and a control signal output from the slot PES. A decoder 11 that decodes and outputs a predetermined signal, a buffer 12 that buffers input / output data of the slot PES by an output control signal of the decoder 11, and inputs the output control signal and data asynchronously. Serial asynchronous communication interface circuit (10) composed of a universal asyncgronous receiver transmitter (hereinafter referred to as UART) 13 capable of directly and parallel converting and transmitting / receiving data input and output by the system. The clock generator 21 which generates one clock pulse and the data which can automatically access the data at the same time as the system to perform a function without any special command at the initial startup. By storing the telephone number and CCITT or Bell rule values, and the data of the default memory 22, and controlling the flow of transmission / reception data according to the built-in program. A control unit 20 comprising a microcomputer 23 for judging and outputting a control signal necessary for system operation, and a transmission for inputting, modulating, descrambled and outputting serial data and transmission data processed according to a program as a serial data. Transmitting / receiving modem section comprising a modem section 31 and a reception modem section 32 for demodulating the received data, which is converted into serial data and inputted according to the reception speed, descrambles it, converts it to parallel data, and outputs the original data. 30), and converts the output of the transmission modem unit 31 into an analog signal to perform band filtering output and to filter the received signal into a digital signal. A data access arrangement 42 for outputting the monitoring signal to the speaker SP while simultaneously outputting the input / output signals of the transmission / reception data conversion unit 41 and the regular transmission / reception data conversion unit 41 to be returned to the aerial line. And a line drive to transmit and output the transmission data output from the analog switching unit 51 which inputs and outputs data by performing a switching operation by input and output of the transmission / reception data conversion output unit 40 composed of a telephone tweeter 43 and a predetermined control signal. RS-232C interface switching unit 50 composed of a line drive interface 52, a line receiver interface 53 for receiving the received data, and an RS-232C 54 for connecting the transmission and reception data.

Therefore, at the same time the system is turned on, the default value stored in the default memory 22 transmits data to the microcomputer 23 to monitor various audio signals (Flag) according to the initial start-up and setting values suitable for the telephone number and CCITT or Bell Bell regulations. This is done by loading.

As described above, when modem transmission data, an address, and a control signal are input from the PC to the slot PES in the state of loading and performing the initial de-pulling data, the address signal is input to the UART 13 and the control signal is transmitted to the decoder 1. Decoding to enable the buffer 12 and the UART 13.

At this time, the buffer 12 enabled by the decoding signal buffers the transmission data input from the slot (PES) to the UART 13 and thus the UART 13 transmits the input data transmitted from the PC. The data is converted into serial data and output to the microcomputer 23 together with a predetermined control signal.

At this time, the microcomputer 20 inputting the serial transmission data and the control signal output from the UART 13 determines whether the input data is modem transmission or asynchronous serial transmission. 31-32) outputs a predetermined control signal to enable.

In addition, the microcomputer 20 processes the input transmission data and converts it into parallel data and outputs the same to the transmission modem unit 31 through the data control bus DCB ₂ together with the transmission control signal.

Therefore, the transmission modem unit 31 demodulates the input transmission data by the transmission control signal, descrambles it and converts it into serial data, and outputs it to the transmission / reception data conversion unit 41 through the data control bus DCB ₂ together with the control signal. do.

The transmission / reception data converter 41 inputting the serial transmission data and the control signal output from the transmission modem unit 31 converts the serial transmission data into an analog signal and transmits the signal so that only a signal for the transmission rate band can pass. It transmits to the telephone tweeter 42 through the data access arrangement 42 and outputs to the speaker SP so that this state can be monitored.

On the other hand, the signal transmitted from the other modem is input to the data access arranger 42 through the telephone tweet 42. At this time, the data access arranger 42 inputting the reception signal outputs a predetermined signal to the speaker SP and monitors the reception analog signal to the transmission / reception data converter 41 so that the reception state can be monitored.

Accordingly, the transmission / reception data converter 41 filters the input analog signal into a band suitable for the transmission speed, converts the analog signal into a digital signal, and transmits the data to the reception modem unit 32 through the data control bus DCB ₂ together with a predetermined control signal. Output

Therefore, the reception modem unit 32 demodulates the original serial data into the received serial data inputted by the reception control signal, descrambles it, and converts it into parallel data.

At this time, the microcomputer 20 outputs a predetermined signal through the data control bus DCB ₁ to check whether the received data is normally received, and reads the received data when it is determined that the received data has been received.

In addition, the microcomputer 20 reading the data received on the reception modem 32 converts the data into serial data and outputs the serial data to the UART 13 through a data control roll bus DCB ₁ together with a predetermined control signal.

Accordingly, the UART 13 converts input serial reception data into parallel data, buffers it through the buffer 12, and inputs the same into the slot PES.

Therefore, it can be seen that the data received by the reception modem 32 is input to the PC.

On the other hand, if the PC transmits the asynchronous serial communication data and the control signal and address signal for controlling the same through the slot (PES), the decoder 11 decodes the control signal as described above to the buffer 12 and the UART Enable (13).

Therefore, the buffer 12 buffers the asynchronous serial transmission data output from the slot PES and outputs it to the UART 13, and the UART 13 inputs an address signal output from the slot PES to the buffer 12. Serial data are inputted from the control unit and serially converted and outputted to the microcomputer 20 and the analog switching unit 51 together with the predetermined control signal.

Input the serial data and the control signal output from the UART (13) The microcomputer 20 interrupts the control signal output to the above-described transmission and reception modem unit (31-32) to disable the transmission and reception (analog switching) The correction control signal is output to the unit 51 to enable it.

Accordingly, the analog switching unit 51 outputs the serial transmission data, which is enabled and input, to the lined live interface 52.

At this time, the live drive interface 52 inputting the transmission data is converted to the input transmission data RS-232C voltage level and transmitted to the RS-232C transmission line 54.

In addition, the received serial data input through the RS-232C transmission line 54 is input to the line-receive drive 53 is converted into a TTL-level signal and output to the analog switching unit 51.

The analog switching unit 51 which inputs the data received by the thin-line receiving interface 53 outputs it to the UART 13.

Therefore, the UART 13 converts the data into parallel data and outputs the same to the PC through the buffer 12 and the slot PES.

Therefore, it can be seen that modem transmission and reception and asynchronous serial communication can be performed under the control of the microcomputer 20 for input / output data processing.

As described above, the present invention enables modem transmission and reception and asynchronous communication by using only one internal expansion slot of a personal computer, so that the internal expansion slot of a limited personal computer can be utilized for other purposes and has a built-in asynchronous communication function. The advantage is that it can be used as an in-modem.

Claims (1)

A slot (PES) for connecting the input / output data of the personal computer to output the output address and the control signal of the personal computer, and the data inputted to the slot (PES) by inputting the address and the control signal as serial / parallel data of the asynchronous transmission method. In the asynchronous communication dual-mode modem circuit having a serial asynchronous communication interface circuit 10 for converting and transmitting, the default asynchronous data access automatically at the same time as the system to perform a predetermined function without an initial command at the initial startup and the serial asynchronous communication interface A control circuit unit 20 for inputting data and a control signal output from the circuit 10 to determine data, thereby controlling data transmitted / received and outputting a signal, and outputting a water-feeding state control signal, and the control circuit unit 20 Input the transmission data and control signal output from A modem transmitter / receiver unit 30 which modulates the transmission data by a signal, scrambles it and outputs it serially, demodulates the input serial reception data, descrambles it, converts it into parallel data, and outputs it to the control circuit unit 20; Transmit / receive data transmission / reception data conversion output unit 40 for converting input / output data of the modem transmitter / receiver unit 30 into a digital or analog signal to filter and monitor transmission / reception status, and at the same time to transmit / receive modem reception data through a telephone air line; And an RS-232C interface switching (50) for interfacing the output of the serial asynchronous communication interface circuit (10) by the control signal of the control circuit section (20).