KR0138347B1 - Data transmitting and receiving method using pulse signal count - Google Patents

Abstract

The present invention relates to a data transmission / reception method using a pulse signal counting method, in which a pulse signal is converted into one-line serial data format of a data pulse and a blank area where information data is divided by the number of reader pulses and pulse signals. By receiving and recognizing leader pulses, counting the number of data pulses, and transmitting and receiving data in a manner of recognizing the contents of information data, it is possible to reduce the data lines for conventional strobe signals and clock signals, thereby reducing the pin-port of each device. This reduces chip size and eliminates noise sources caused by high-frequency clock signals to improve operation errors and improve performance.It is used for transmitting and receiving serial data with a small amount of information without requiring high speed. Is more effective.

Description

Data transmission / reception method using pulse signal count method

1 is a block diagram showing a serial data transmission and reception method according to the prior art.

2 is a block diagram showing a method for transmitting and receiving serial data in one line using a pulse signal counting method according to the present invention.

3 is a diagram showing a one-line serial data format according to the present invention, b is a diagram showing a data structure in a one-line serial data format according to the present invention,

4 is a flowchart for receiving serial data using a pulse signal counting method according to the present invention;

5 is a flowchart for serial data transmission using the pulse signal counting method according to the present invention.

* Explanation of symbols for main parts of the drawings

10: first device (microcom or microprocessor: master)

20: second device (microcom or microprocessor: slave)

The present invention relates to a data transmission / reception method using a pulse signal counting method, and more particularly, a high speed is not required and a small amount is required in performing data communication between elements composed of a microcomputer and a microprocessor. Data transmission / reception method using pulse signal count method that transmits / receives information data classified according to the number of pulse signals in one-line. will be.

Background Art Conventionally, data communication has been performed in a microcomputer or a microprocessor to exchange various types of information between elements. 1 is a block diagram showing a serial data transmission / reception method according to the prior art, wherein device 1 and device 2 may be a microcomputer or a microprocessor. In order to exchange data between two devices, four communication lines are required, including a strobe signal, a clock signal, and two data that can exchange data.

Therefore, in the conventional serial data transmission and reception method, four pin-ports are required for each element. In the data transmission / reception method as described above, a high frequency clock signal must exist. In the serial data transmission / reception method as described above, since eight pin-ports must be used in both devices, the area of each device is increased and the chip size is increased. There is a problem in that a noise source is generated in water, thereby causing an error in a circuit operation or impairing performance.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a reader pulse in a data transmission / reception method in a case where there are few kinds of information data, high speed is not required, and there are few kinds of information data. When the data is transmitted in the serial data format of the area, data pulse area, and blank area, the receiving side recognizes the leader pulse, counts the data pulses, and recognizes the information according to the number of pulses. The present invention provides a data transmission / reception method using a pulse signal counting method that reduces pin-ports for strobe signals and clock signals, and eliminates noise sources caused by high frequency clock signals to prevent operation errors and improve performance. .

A characteristic of the data transmission / reception method using the pulse signal counting method according to the present invention for achieving the above object is that the information data of the serial data format consisting of a leader pulse area, a data pulse area and a blank area between a plurality of devices. In the one-line data transmission / reception method, a leader pulse recognition step of determining whether a pulse width between a rising edge and a falling edge of an input pulse signal is within a predetermined range, and the leader pulse is recognized in the recognition step. After the data pulse of a certain duty is inputted, the data recognition step of counting the number of pulses to recognize the contents of the information data and outputting the data; and if the pulse signal of the predetermined duty is not input after the reader pulse is recognized in the recognition step Recognizing the blank area to determine whether a predetermined time has elapsed by measuring the time Is that it receives serial data.

Hereinafter, one preferred embodiment of a data transmission / reception method using the pulse signal counting method according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram showing a method of transmitting and receiving serial data in one line using a pulse signal counting method between two devices. The data line and the number of data lines for transmission between the master 10 device and the slave device 20 are shown in FIG. There is one credit data line.

3 shows a serial data format capable of transmitting and receiving data in a one-line manner in a pulse signal count method, and an initial predetermined section includes a reader required for preparing to receive data from a receiving device. LEADER) After the pulse area and the leader pulse, the predetermined section is divided into the contents of information data by the number of pulses of a certain duty, and the receiving element receives it and counts the number of pulse signals to recognize the contents of the information data. The data pulse area and the predetermined area after the data pulse area are composed of a blank area for easy differentiation from the next inputted information data.

In FIG. 3, the contents of the information are divided according to the number of pulse signals, and the definition of each information is applied to the master and the slave simultaneously. The data pulses of the above information may be adjusted according to the amount of information, if necessary, the period and number of pulse signals.

A method of receiving serial data input in one-line will be described first with reference to the receiving flowchart shown in FIG. 4 in the method of transmitting and receiving information data in the serial data format as described above.

In the serial data format of FIG. 3, the flowchart shown in FIG. 4 is, for example, 5 ms in width of the leader pulse, 20 ms in the data pulse area, 10 ms in the blank area, and 11 types of information. Is about how to receive it.

When serial data as shown in FIG. 3 is input, step S10 reads a pulse signal. Step S14 determines whether a rising edge portion is detected in the read pulse signal. Step S14 begins to measure time to calculate the width of the pulse if a rising edge is detected in step S12. Step S16 determines whether the falling edge portion has been detected and continues to calculate time if not detected. In step S18, when the pulse width X between the rising edge and the falling edge of the input pulse signal satisfies 4.5ms ≦ X ≦ 5.5ms, it is recognized as a leader pulse, and when not satisfied, it is not recognized as a leader pulse. In step S20, if it is recognized as a leader pulse in step S18, it is determined whether a pulse of a next predetermined duty is input and recognized as a data pulse. Step S22 counts the data pulses recognized in step S22. In step S24, the contents of the information data are recognized and output according to the number of pulses counted in step S22. If a pulse of a certain duty is not input in step S20, step S26 starts to measure time. In step S28, when the pulse of a certain duty is not input for a predetermined time, the state in which the number of data pulses is zero is recognized as information data in which the number of pulses is zero in step S24. In step S28, the data pulse is counted by continuously feeding back to step S20 for a predetermined period of time as a data area.

As described above, in the method of receiving serial data transmitted in one-line using the pulse signal counting method, the pulse width of the pulse signal is measured from the input serial data to recognize the leader pulse, and the data pulse is input when the reader pulse area ends. It determines whether or not the information is counted by counting the pulse signal.

Next, a method of transmitting serial data to receive data as described above will be described with reference to the transmission flowchart shown in FIG.

In the device to transmit the information data, step S60 determines the information data to be transmitted. When the data to be transmitted is determined, step S62 forms and outputs a leader pulse having a predetermined pulse width. In step S64, the leader pulse signal is output in step S62, and data pulses are generated as many as pulses corresponding to the information data to be transmitted. According to the information data to be transmitted in this manner, serial data can be transmitted in one line by dividing by the number of pulse signals.

As described above, according to the data transmission / reception method using the pulse signal counting method according to the present invention, the pulse signal is transmitted in the serial data format of the data pulse and blank area where the contents of the information data are divided by the number of leader pulses and pulse signals. By transmitting and receiving data in a one-line manner to recognize leader pulses, counting data pulses, and recognizing the contents of information data, the data lines for conventional strobe signals and clock signals can be reduced. By reducing the port, chip size is reduced, and noise sources caused by high frequency clock signals are also eliminated, thereby preventing operation errors and improving performance.

Although the present invention has been described with reference to the accompanying drawings, the present invention is not limited thereto and many changes or modifications may be made without departing from the scope of the following claims.

Claims (2)

In the data transmission / reception method of transmitting / receiving information data of serial data format including a leader pulse area, a data pulse area and a blank area in one-line between a plurality of devices, a pulse width between a rising edge and a falling edge of an input pulse signal A leader pulse recognition step of judging whether it is within a predetermined range; A data recognition step of recognizing the contents of information data by counting the number of pulses when a data pulse of a predetermined duty is input after a pulse signal of a predetermined duty is recognized after the leader pulse is recognized in the recognition step; If a pulse signal of a certain duty is not input after the leader pulse is recognized in the recognition step, a pulse signal counting method for receiving serial data is performed by recognizing a blank area for determining whether a predetermined time has elapsed by measuring time. How to send and receive data. The method of claim 1, wherein the recognizing data comprises: determining whether a data pulse having a predetermined duty input after reader pulse recognition is input; Counting input data pulses; A data transmission / reception method using a pulse signal counting method comprising the step of recognizing and outputting the content of information data according to the counted number of data pulses.