JPS63197142A - Polling system - Google Patents

Abstract

PURPOSE:To directly attain communication between terminal equipments under the control of polling system by adding a transmission right transfer command. CONSTITUTION:A terminal controller 1 and terminal equipments (A)2-terminal equipments (C)4 are connected to one set of bus transmission line 5. The terminal equipments 2-4 receiving a polling command return a transmission request in receiving the data transmission request, the terminal controller 1 issues a transmission right transfer command to the terminal equipments 2-4 and the terminal equipments 2-4 having the transmission right by the transmission right transfer command send directly a data command to the object terminal equipments 2-4. The transfer destination terminal equipments 2-4 concerned receive directly the command, send the response to the equipments 2-4 and the equipments 2-4 receiving the response restore to the terminal controller 1 by means of the transmission right return command to complete the data transfer. The terminal controller 1 issues a polling command to the next terminal equipment when the transmission right is restored.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a data communication system, and in particular, a data communication system in which data exchange between a plurality of terminal devices using a common transmission path is controlled by a so-called polling system. It relates to a data communication method.

[Conventional technology]

In a data communication system in which a plurality of terminal devices exchange data using a common transmission path, there is a polling method as a method of allocating the use of the transmission path to the plurality of terminal devices. According to this method, a terminal control device that centrally controls the allocation of transmission path use sequentially sends polling commands representing transmission invitations to other terminal devices, and only the terminal devices that receive the polling commands Allowed to send data to the terminal controller. In this method, if there is a failure in the terminal device, if the terminal device is not connected to the transmission path, or even if the terminal device is operating normally, the polling command may not reach the terminal device due to a transmission error. In this case, the terminal control device will continue to wait for a response from the terminal device, and the polling service will stop. As a method to avoid this, for example, as in Japanese Patent Application Laid-Open No. 61-93753, a response monitoring means is provided in the terminal control device, and a polling command is sent out and a response is waited for from a specified terminal device. If there is no response within this time, it is assumed that there is some kind of abnormality in the terminal device, and the process is stopped.

[Problem that the invention seeks to solve]

However, in the conventional polling method as mentioned above,
The setting value of the response monitoring timer must be greater than the transfer time of data transmitted from the terminal device to the terminal control device. This is because if a transmission error occurs during data transfer and the terminal control device cannot receive data, if the timer setting value is short, the next polling command will be sent from the terminal control device when data remains on the transmission path. This is because the two commands will collide on the same transmission path. If the timer is set to a sufficiently long time and monitored, command collision problems can be avoided, but if the terminal device is malfunctioning or not connected to the transmission path, the interval between polling commands may be long ( In addition to the above problem, terminal devices are only allowed to send data to the terminal control device, and are not allowed to send data directly to other terminal devices at all. It wasn't.

The present invention aims to solve the problems of the conventional polling method described above, and is to use the polling method to efficiently control communication between a plurality of terminal devices connected to a common transmission path.

[Means for solving problems]

The present invention allows direct communication between terminal devices after polling. That is, when a terminal device receives a polling command and receives a data transmission request, it returns a "1 transmission request" response, and the terminal control device issues a transmission right transfer command to the terminal device.The transmission right transfer command transfers the transmission right. The terminal device that received the command sends the data command directly to the target terminal device without going through the terminal control device.The destination terminal device directly receives this command and sends the response to the source terminal device. The terminal device that received the response returns the transmission right to the terminal control device with a transmission right return command and completes the data transfer operation.The terminal control device transmits the data to the next address when the transmission right is returned. A polling command is issued to the terminal device.

[Effect]

While conventional polling commands were intended to solicit transmissions, in the present invention, they are divided into polling commands and transmission right transfer commands.The polling command is limited to monitoring the status of the terminal device, and the transmission right transfer command is used to solicit transmission rights. As a result, a terminal device that has obtained transmission rights can directly communicate with other terminal devices.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. 1st
The figure shows an example of a polling type data communication system using a bus-like transmission line as a connection means, in which a terminal control device 1 and terminal devices (A) 2 to 4 (terminal devices (C) 4 The terminal control device 1 has a
A response monitoring mechanism that uses a timer to monitor whether there is a response to a polling command and a transmission right return monitoring mechanism that uses a timer to monitor a transmission right return command in response to a transmission right transfer command are connected. The response monitoring mechanism is a known means, but in the present invention, since the response information from the terminal device to the polling command does not include data, it can respond quickly, and therefore the timer in the response monitoring mechanism can be set short. . Let this timer value be TI. On the other hand, the transmission right return monitoring mechanism is newly provided in the present invention, and the timer therein must be set for a period longer than the data transmission period.

Let this timer value be T2. The timer provided in the conventional response monitoring mechanism has a value close to T2. Comparing T1 and T2, for example, if the response information to a polling command is several bytes and the transmitted data is several kilobytes, then 1000
It will more than double.

FIGS. 5-5D show an example of the format of a communication used in the present invention. The message includes a start flag (SF) 9 indicating the beginning, a destination address (A) io indicating the destination of the message itself, a command (C) 11, and a check frame sequence (F) for checking transmission errors.
e2)12. End flag indicating the end (EF) 1
3 and an information section corresponding to each command.

Command (C) 11 is a code indicating the nature or type of the message, and only four types necessary for the following explanation are listed below.

■POL command 8: A command used when the terminal control device 1 causes the terminal devices 2 to 4 to report their status. The status report indicates whether data can be received from other devices connected to the transmission path 5 or whether there is a data transmission request to other devices.

■ACK command 17: A command used when the terminal control device 1 temporarily transfers the transmission right to the terminal devices 2 to 4.

■8ND command 19: A command used when the terminal control device 1 or the terminal devices 2 to 4 transmits data. (8A) 21 is the source address of the command, and (DATA) 4 is the data to be transferred.

■R8F command 14: Terminal control device 1 or terminal devices 2 to 4 uses POL command 8
, ACK command 17.8 Command used when responding to ND command 19.

0016 is detailed information upon response.

The process of data transfer from the terminal device (A) 2 to the terminal control device 1 is as follows, and FIG. 2 is a time chart thereof.

As a first step, when the terminal device (4) 2 receives the POL command 8 addressed to itself from the terminal control device 1, (
X) Enter the transmission right request code in 16 and execute asp command 1
4 is returned to the terminal control device 1.

As step wJ2, the terminal control device 1 sends the P0L command 8, activates the response monitoring mechanism 6, monitors the time, and then waits for the R8P command 14.

If the R8P command 14 is not received within a certain period of time T1, it is determined that the terminal device is not connected or has caused a failure, and a POL command 8 is issued to the next terminal device. If R8P command)'14 is returned from the terminal device,
The terminal control device 1 examines (X)16, and when it learns that it indicates a transmission right request, sends an ACK command 17 to the terminal device.

As a third step, when the terminal device (4) 2 receives the ACK command 17, it sends an 8ND command 19 with the destination address (4) 10 as the terminal control device 1.

As the fourth step, after sending the ACK command 17, the terminal control device 1 waits for the R8F command 14 or the SND command 19, and when it receives the 8ND command 19, it sends the destination address (4) 10 to the terminal device (4). 2, returns the SP command 14 as a response to the SND command, and waits again for a response to the ACK command.

As a fifth step, when the terminal device prisoner 2 receives the R8F command 14, it changes the transmission destination address (A) 10 to the terminal control device 1 in order to return the transmission right to the terminal control device.
8P command 14 is sent.

FIG. 3 shows the terminal control device 1 to the terminal device (4) in FIG.
) ACK, which is the transmission right transfer command sent to 2.
This is an example where a transmission error occurs during command 17. The terminal device (A) 2 has no way of knowing that the command that caused the transmission error is the ACK command 17, and is on standby ready to accept all commands. When the terminal control device 1 sends out the ACK command 17 in the fourth step of the above process, it starts the transmission right return monitoring mechanism 7, monitors the time, and then waits for the R8F command.

If the R8P command 14 is not received within a certain period of time 12, the ACK command may have caused a transmission error, or the
Assuming that the P command did not reach the terminal control device due to a transmission error, a POL command is issued to the next terminal device. This prevents the system from hanging up even if a transmission error occurs. Furthermore, at the time the time has elapsed, there is no message on the transmission path, and no command collision will occur even if the next POL command is issued.

FIG. 4 is a time chart when data is transferred from the terminal device (A) 2 to the terminal device (B) 3. In the third step of the above process, when the terminal device <A) 2 receives the ACK command 17, it sets the destination address (3) 10 to the terminal device (B) 3 and sends an 8ND command. Fourth
In step, when the terminal device (B) receives the 8ND command 19, the terminal device (B) sends the destination address (A) 10 to the source address (S person) 21 in the 8ND command 19, that is,
Returns the R8P command within the terminal device.

In this embodiment, the message shown in Figure @5 is used, but auxiliary information may be added to the message, or another format may be used.

Further, the present invention can also be applied to a ring-shaped transmission line and the like.

〔Effect of the invention〕

As explained above, according to the present invention, by adding a transmission right transfer command, direct communication between terminal devices becomes possible under polling control, and the transmission right return monitoring mechanism enables line This has the effect of improving usage efficiency and shortening the time required for data transfer.

[Brief explanation of the drawing]

Figure 1 is a configuration diagram showing one embodiment of the present invention, @Figure 2, Figure 3
4 is a time chart of the data transfer process of the present invention, and FIG. 5 (4), (B), (C), and (D)
are respectively format diagrams of the correspondence of the present invention. 1... Terminal control device 2, 3.4... Terminal device 5... Transmission path 6... Response monitoring mechanism 7.
...Transmission Rights Return Monitoring Organization Agent Patent Attorney Masaru Ogawa 4

Claims (1)

[Claims] 1. A terminal control device and a plurality of terminal devices, each having a unique address, and a transmission line commonly connected to the various devices, and the terminal control device can be controlled via the transmission line. In a polling method in which a device sequentially sends polling commands to monitor the terminal device, and the terminal device responds, when there is a data transmission request from the terminal device, the terminal control device sends the polling command to the terminal device. A polling method characterized by adding a transmission right transfer command for temporarily transferring the transmission right and a transmission right return command for returning the transmission right from the terminal device to the terminal control device after data transmission. 2. A transmission right return monitoring mechanism is provided in the terminal control device, and after sending the transmission horizontal transfer command, the transmission right return monitoring mechanism is operated so that the next process can be performed even if the transmission right return command is not returned when the timer expires. A polling method according to claim 1, characterized in that: