JPS6179345A - Communication controlling method - Google Patents

Abstract

PURPOSE:To monitor and display discontinuation of data of more than a prescribed time, by providing a timer which measures the elapsed time after receiving data at every time when data of one character quantity are received to a receiving side system and discriminating whether or not the elapsed time exceeds a prescribed time before the next character is received after one character is received. CONSTITUTION:A transmission controlling section 202 outputs a time measurement starting signal TST to a timer 205 when detecting a start bit STB. The timer 205 resets the previously measured time in accordance with the signal TST and, at the same time, starts new time measurement. A comparator circuit 206 always compares the measured time Tp by the timer 205 with a previously set reference time Tr and, when Tp>=Tr, outputs a time-over signal TOV. When the signal TOV is outputted, the processor 101 of a processing section 21a immediately reads the signal TOV and displays the discontinuation of data through a display device 302 by means of a message.

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a communication control method in a communication system that asynchronously communicates data from a transmitting system to a receiving system, and particularly relates to a communication control method that In addition to identifying and displaying data interruptions, it also identifies whether or not the interruptions are due to a failure in the sending system, and informs the receiving system of the interruption while continuing to receive data. The present invention relates to a communication control method.

<Prior Art> In a communication system such as R8232C that transfers data asynchronously from a sending system to a receiving system, data (character data) may be interrupted during communication. FIG. 2(A) is an explanatory diagram when no data discontinuity occurs, and FIG. 2(B) is an explanatory diagram when a data discontinuity DSP occurs. In addition, star 1-data STD is inserted at the beginning of one message, and end data E D is inserted at the end.
I) has been inserted. Also, each data (character data)
As shown in FIG. 3, the data bit DTB is composed of a start bit data bit DTB and blocks 1 to SPB.

By the way, the above-mentioned data interruption may occur (1) temporarily because the processing in the sending system cannot be completed in time, or (2) due to a failure occurring in the sending system.

If data interruption occurs due to (1), the receiving system must continue waiting until data transfer is resumed, whereas if it occurs due to (2), the receiving system must immediately terminate the waiting state. , it is desirable to perform different processing.

However, in the receiving system, it is not possible to determine whether the data interruption is caused by the above (1) or (2).

For this reason, in conventional systems, even if a data interruption occurs, the system continues to wait for data without canceling the waiting state.

<Problem to be solved by the invention> However, in the conventional method-C, even if a failure occurs in the sending system, the process continues to wait, and in such a case, the processing in the receiving system stops. There was a problem.

From the above, an object of the present invention is to provide a communication control method that monitors and displays that data has been interrupted for a predetermined period of time or longer.

Another object of the present invention is to provide a communication control method that recognizes the state of a communicating system when data is interrupted for a predetermined period of time or more, and determines whether to continue waiting for data from the transmitting system. .

<Means for solving the problem> The communication control method of the present invention is a communication control method in a communication system in which data is transferred asynchronously from a sending system to a receiving system. A timer that measures the elapsed time after receiving the data each time data for a character is received, and a timer that measures the elapsed time from receiving one character to receiving the next character or not. A method is provided to determine the elapsed time, and when the elapsed time exceeds a predetermined time, it is displayed to that effect, and the status of the sending system is identified, and if a problem occurs in the sending system, the receiving system is This is configured by terminating data reception from the transmitting system.

Function> A timer that measures the elapsed time after receiving one character of data each time the receiving system receives the data, and a timer that measures the elapsed time from receiving one character to receiving the next character. Comparing means for determining whether or not a predetermined time has elapsed (whether or not the time has elapsed), display means for displaying that fact when the time has elapsed, and reception abort signal generating means are provided.

The timer repeatedly resets the time that has been counted up to that point and measures a new time every time one character is received, and the comparison means generates a time-over signal when the elapsed time exceeds a predetermined time, and the display means ( For example, use a display device, buzzer, lamp, etc. to indicate this. Also, when a time-out occurs, the status of the sending system is identified, and if there is a failure in the sending system, a reception abort command is input from the keyboard to terminate data reception 3 from the sending system. , causes the receiving system to exit the data waiting state and perform another process.

<Embodiment> FIG. 1 is a block diagram of an embodiment of the communication control method according to the present invention.

11 is a transmitting side system, 21 is a receiving side system, and 31 is a transmission line. Although the following explanation assumes that data is transmitted bit-serial from the transmitting system to the receiving system, it goes without saying that the present invention may also be applied to transmitting data in parallel.

The receiving system 21 includes a processing unit 21' having a computer configuration.
a, an interface section 21b, and a data input/output section 21C such as a keyboard and a display device. The processing unit 21a includes a processor 101, a ROMIO2 for storing a control program, a RAM 103, etc.
It is connected to each device constituting the interface section 21b and data input/output section 21c via the address/data bus line. The interface section 21b includes a baud rate oscillator 201 that generates a pulse train pb of a predetermined frequency, a transmission control section 202, a gate 1 circuit 203, a shift register 204, a timer 205, and a comparator 206. It is composed of a data input/output section 21, and c is a keyboard 3.
01, a display device 302, etc.

Now, serial data is transmitted from the transmitting system 1 to the receiving system 21 via the transmission line 31, and the transmission controller 2
Star 1-Pill-ST of each character data by 02
When B is detected, the transmission control section opens the first game 1% 203 without storing the data after the second pick in the shift register 204. As a result, the character data starting from the second bit is sequentially stored in the shift register 204. And stoppi 1. When S P B is detected by the transmission control unit 202, the gate circuit 9203 is closed, and thereafter the data stored in the shift register 204 is transferred to the processing unit 2.
1a in parallel.

The processor 101 of the processing unit 21a checks the received data, and if the data indicates the beginning of the data string (star), then data indicating the end of the data string (to end of text 1) is received. It will be in the data receiving state until it is received.

In this data reception state, the interface section 2
1b receives the data, and the processing unit 21a performs data import processing.

On the other hand, data interruption monitoring and control is performed in parallel with the data reception process. That is, when the transmission control unit 202 detects the start bit STB (stop bit SP
B), and outputs a timing start signal TST to the timer 205. The timer 205 resets the time measured up to that point by the time measurement start signal TST and starts a new time measurement.

In other words, the timer 205 measures time every time character data is received, and measures the time interval between each character. The comparator $206 constantly compares the time Tp measured by the timer 205 with a preset reference time Tr, and if Tp≧Tr, a time over signal TOV is generated.
Output. Incidentally, the occurrence of the time-over signal TOV means that a data interruption has occurred for a period longer than the reference time Tr.

The processor 101 of the processing unit 21a receives the time-over signal T.
When an OV occurs, it is immediately read and a message is displayed on the display device 302 to indicate that a data interruption has occurred. Note that the occurrence of data interruption may be indicated by a buzzer or by blinking a lamp.

Now, if a message indicating an interruption in data is displayed on the display device 302, the operator sees the message and recognizes that an interruption in data has occurred. Thereby, the operator checks whether a failure has occurred in the sending system 11. If no failure has occurred and the data interruption is simply due to a processing delay in the sending system, the operator does not perform any operations such as asking, but continues to wait for data to be received. However, if a failure has occurred, the operator inputs an interrupt signal to terminate reception from the keyboard 301. As a result, the processing unit 21a immediately performs the same process as when receiving the end of text, cancels the reception state, and performs subsequent processing.

<Effects of the Invention> As described in detail above, according to the present invention, the receiving system is provided with a timer that measures the elapsed time after data reception each time data for one character is received, and a timer that measures the elapsed time after receiving one character. means for determining whether the elapsed time has exceeded a predetermined time from when the elapsed time is received until the next character is received; The system was configured to identify the status of the sending system and cause the receiving system to stop receiving data from the sending system if the sending system has a failure, resulting in data interruption. This can be easily recognized by the operator, and if the data interruption occurs temporarily because the sending system cannot process it in time, the data reception state can be continued as is. If data interruption is caused by a failure in the sending system, the receiving state can be canceled and the receiving system can perform other processing, improving system efficiency. I can do it.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a system that implements the communication control method according to the present invention, FIG. 2 is an explanatory diagram for explaining data interruption, and FIG. 3 is an explanatory diagram of the structure of character data. DESCRIPTION OF SYMBOLS 11... Sending side system, 21... Receiving side system, 31... Transmission line 21, a... Processing part, 21b... Interface part, 21c... Data input/output part 201... Baud rate oscillator, 202... Transmission control unit, 203... Gate, 204
...Shift register 205...Timer, 206...Comparison circuit patent applicant FANUC Corporation = 11-

Claims (2)

[Claims] (1) In a communication control method in a communication system that asynchronously transfers data from a sending system to a receiving system, a timer is used to measure the elapsed time after receiving data each time one character of data is received in the receiving system. and a means for determining whether the elapsed time has exceeded a predetermined time from receiving one character to receiving the next character is provided, and when the elapsed time has exceeded the predetermined time, a display to that effect is provided. A communication control method characterized by: (2) When the elapsed time exceeds a predetermined time, the status of the sending system is identified, and if there is a failure in the sending system, the receiving system stops receiving data from the sending system. The communication control method according to claim (1), characterized in that the communication control method is terminated.