JPH01157642A - Local area network - Google Patents

Abstract

PURPOSE:To facilitate a maintenance work by setting a data transmitter made into a tested object in a testing mode not to accept frames transmitted from other data transmitters and external systems connected to them. CONSTITUTION:To the tested data transmitter set in the testing mode, data are exchanged, for the purpose of the test, from external systems 11-1n connected to tested data transmitters 31-3n. At such a time, even when ordinary frames are transmitted from the other external systems through network transmitting paths 4 to the tested data transmitter in the middle of a test execution to be set in the testing mode, since the tested data transmitter is in the testing mode, a rejecting response is executed by a testing mode response frame to the other external systems. Thus, the test to be executed between the tested data transmitter and the external systems to which the tested data transmitters are connected can be executed without being influenced by the ordinary frames transmitted from the other external systems.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a data transmission system, which includes a screw 1 to a workpiece transmission path, a plurality of data transmission devices arranged on the network transmission path, and each of the data transmission devices. A local area network that consists of multiple external systems connected to a local area network and that transmits data in a frame-by-frame structure.

[Conventional technology]

Conventionally, testing of multiple data transmission devices placed on the transmission path of a local area network involves testing the data transmission devices that perform normal general processing and the external systems connected to the data transmission devices. The test was performed by connecting the data transmission device to be tested by T&D etc. to the same network transmission path as the one being tested.

[Problem that the invention seeks to solve]

The conventional test method described above connects the data transmission device under test to the network transmission path used by the data transmission device that performs normal general processing. It is affected by frames transmitted from the data transmission device performing processing and the external system connected to that data transmission device via the network transmission path to the data transmission device undergoing testing by T&D etc. However, there is a drawback that the test cannot be carried out normally.

[Means for solving problems]

The local area network of the present invention includes an address storage area that stores and holds an address unique to the data transmission device used as a source or destination address when transmitting a frame, and a data transmission area for the data transmission device. A special mode setting frame that is sent from an external system connected to a device and sets the transmission device to either a normal mode that performs normal processing or a test mode that performs special processing for testing. detects that it has been received,
a mode setting frame decoding mechanism for notifying; a setting mode storage area; and upon being notified that the mode setting frame has been received, decoding information in the mode setting frame to select either the normal mode or the test mode; Mode setting frame stored in the setting mode storage area]! [tI11
an external system-side transmission/reception buffer that receives and holds frames transmitted from an external system connected to the data transmission bag L) for the data transmission device; and an address stored in the address storage area. a normal frame decoding mechanism that detects and notifies that a normal frame with a source address different from the source address has been received from the network transmission path, and a special test mode that notifies that the test mode is in which the normal frame is not received. a test mode response frame transmission mechanism that transmits a response frame; and when notified that the normal frame has been received from the network transmission path, examines the setting mode storage area;
If the mode set in the setting mode storage area is a test mode, a test mode response frame processing mechanism that instructs a test mode response transmission mechanism to transmit the test mode response frame; and a test mode response frame processing mechanism in which the test mode response is stored. The data transmission device has a test response frame storage area and a network transmission line side transmission/reception buffer that temporarily holds all frames received from the network transmission line.

[Effect]

When testing a data transmission device, first a mode setting frame is transmitted to the data transmission device under test from an external system connected to the data transmission device under test to set the data transmission device under test in a test mode. Next, data is exchanged for testing purposes from an external system connected to the data transmission device under test, which is set to the test mode. At this time, even if a normal frame is transmitted via the network transmission path from another external system to the data transmission device under test that is set to test mode and is running a test, the data transmission device under test is in test mode. Since a rejection response is sent to the other external system 1 using a test mode response frame, the test being conducted between the data transmission device under test and the external system to which the data transmission device under test is connected cannot be accessed from the other external system. It can be executed without being affected by the transmitted normal frame.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a part of the data transmission equipment @31 to 3n in FIG. 2, FIG. 2 is a block diagram showing an embodiment of the local area network of the present invention, and FIG. FIG. 2 is a diagram showing a frame format used for data transmission in an area network.

As shown in FIG. 2, the current Cal Area Network consists of a loop-shaped network transmission path 4, data transmission devices 31 to 3n arranged on the transmission path 4, and these data transmission devices 31 to 3n. The system is composed of a plurality of external systems 11 to 1, which are connected to each other via transmission lines 21 to 2n.

Information transmitted via each of the data transmission lines 21 to 2n and the loop transmission line 4 takes the frame format shown in FIG.

That is, the transmitted information is sandwiched between flags (hereinafter abbreviated as F) consisting of a specific bit pattern at the beginning and end of each frame to distinguish each frame. The information sandwiched between specific bit patterns F is first addressed by an address indicating the destination of the information to be transmitted (hereinafter abbreviated as DA), then by an address indicating the source of the information (hereinafter abbreviated as SA), and then A control code (hereinafter abbreviated as 0 [-]) indicating the type of information to be transmitted is a control code indicating the type of information to be transmitted (hereinafter referred to as DATA).
(abbreviated as FC8) is inserted at a certain length, and finally data obtained by calculating the checksum of the entire transmission frame (hereinafter abbreviated as FC8) is added.

As shown in FIG. 1, the data transmission devices 31 to 3n have an address storage area 50 that stores and holds an address unique to the data transmission device used as a source or destination address when transmitting a frame, and The data transmission device is connected to the data transmission device and sent from an external system to the data transmission device, and the data transmission device is placed in a normal mode for normal processing or a test mode for special processing for testing. A mode setting frame decoding mechanism 1 that detects and notifies that a special mode setting frame characterized in that it is set to either one is received from the data transmission line i ooo.
0, and an external system side that receives and holds frames transmitted from an external system connected to the data transmission device and output from the mode setting frame decoding mechanism 10 via the data transmission line 1001. Transmission/reception buffer 40 and setting mode storage area 3
0, and when it is notified via the control line 101 that the mode setting frame has been received, it decodes the information output from the external system side transmission/reception buffer 40 onto the data transmission line 4001 and selects either normal mode or test mode. The mode setting frame processing mechanism 20 stores the mode setting frame processing mechanism 20 in the setting mode storage area 30 via the data transmission line 2001, and the network transmission path stores normal frames having a source address different from the address stored in the address storage area 50. a normal frame decoding mechanism 60 that detects and notifies that the normal frame has been received via the data transmission line 3000, and a test mode response that transmits a special test mode response frame that notifies that the test mode is a test mode in which no normal frames are received. When the frame transmission mechanism 80 is notified by the control line 602 that a normal frame has been received from the network transmission path 4, the control line 7
01 to check the setting mode storage area 30, and if the mode set in the setting mode storage area 30 is the test mode, the test mode response transmitting mechanism 80 is instructed to transmit a test mode response frame by the control line 702. A mode response frame processing mechanism 70 and a test mode response frame storage area 9 where test mode responses are stored via a control line 801.
0 and a normal frame decoding mechanism 60 . It has a network transmission line side transmission/reception buffer 100 that temporarily holds all frames received via the data transmission line 6001.

Next, the operation of this embodiment will be described for the case where a data transmission bag @3n is tested.

First, a method of setting the data transmission device 3n to a mode (test mode) in which special processing is performed in order to test it will be described. The data transmission device 3n is transmitted from the external system 1n to the data transmission device 3n via the data transmission path 2n.
In order to set the DA to the test mode, the data transmission device 3 sends the mode setting frame to the DA in the frame format shown in Figure 3.
The node address of n, the address of the external system 1n in SA, the code indicating that it is a mode setting frame in CTL, and the predetermined information indicating the test mode in DATA are set and transmitted. The mode setting frame transmitted from the external system 1n is detected by the mode setting frame decoding mechanism 10 of the data transmission device 3n via the data transmission line 1000. The mode setting frame decoding mechanism 10 that has detected the mode setting frame notifies the mode setting hood setting frame processing mechanism 20. At this time,
The mode setting frame is stored in the external system side transmission/reception buffer 40 via the data transmission line 1001. The mode setting frame processing mechanism 20 receives the notification that the mode setting frame has been detected, and transmits the data transmission line 400 to the data transmission line 400.
1, reads out the mode setting frame stored in the external system side transmission/reception buffer 40, analyzes its contents, and recognizes that it is a mode setting frame for setting the test mode, indicating that it is in the test mode. is stored in the setting mode storage area 30 via the data transmission line 2001. At this point, the process of setting the data transmission device 3n to test mode ends.

Next, external system 1 that is performing normal general processing
Data transmission device 3n set to test mode from 1
In contrast, when a normal frame is transmitted via the network transmission path 4, a process in which a rejection response is received because the data transmission device 3n is in the test mode will be described. The node address of the data transmission device 3n is set to DA, and the external system 1
A normal frame of the format shown in Fig. 3, in which address 1 is set to SA and arbitrary data is set to DATA, is sent to data transmission line 4.
The data is transmitted from the external system 11 to the data transmission device 3n via the external system 11. The transmitted normal frame is on data transmission line 3
000 to the normal frame decoding mechanism 60. The normal frame decoding mechanism 60, which detected that the frame was input, compared the node address of the data transmission device 3n stored in the address storage area 50 via the control line 601 with the SA of the input frame. As a result, when it is recognized that they do not match, the test mode response frame processing mechanism 70 is notified via the control line 602. The frame input at this time is stored in the network transmission line side transmission/reception buffer 100 via the data transmission line 6001. Test mode response frame processing mechanism 70 notified that a normal frame has been input
refers to the information set in the setting mode storage area 30 via the control line 701, recognizes that the data transmission device 3n is in the test mode, and transmits the test mode response frame transmission mechanism 80 via the control line 702. The data transmission device 3n notifies the user that the data transmission device 3n is in test mode. Notified test mode response frame transmission mechanism 80
is stored in advance in the test mode response frame storage area 90 in the format shown in FIG.
Predetermined information indicating that the data transmission device 3n is in test mode is transmitted to the ATA via the control line 802 to a frame (test mode response frame) having the node address of the data transmission device 3n in the SA. After referring to the SA of the normal frame stored in the network transmission line side transmission/reception buffer 100 and setting the SA in the DA section of the test mode response frame, the test mode response frame is transmitted via the data transmission line 4000. The transmitted test mode response frame is sent to the data transmission device 3 via the network transmission path 4.
1 to the external system system 1; At this point, the external system 11 is
Since the data transmission device 3n is in the test mode, it can be recognized that the normal frame transmitted by the external system 11 to the data transmission device 3n was rejected by the test mode response frame.

Incidentally, it is originally necessary to explain the operation of the mode setting frame in the normal mode, but since the operation in the normal mode is no different from the normal general operation, no special explanation will be provided.

In the above explanation, the external system 1n and the data transmission device 3
We have explained the case where a normal frame is transmitted from the external system 11 while a test is being conducted between the external system 1n and the data transmission device 3n. It is clear that the same thing is true even when normal frames are transmitted from the external systems 12, 13 and the data transmission devices 31 to 33.

〔Effect of the invention〕

As explained above, the present invention sets a data transmission device to be tested in a specific mode, which is a test mode in which it does not accept other data transmission devices and their frames, and By testing the data transmission equipment being tested without being affected by the frames sent from the system, it is possible to test the data transmission equipment correctly and maintenance work can be made easier. effective.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a part of the data transmission devices 31 to 3n in FIG. 2, FIG. 2 is a block diagram showing an embodiment of the local area network of the present invention, and FIG. 3 is a block diagram showing the local area network in FIG. FIG. 2 is a diagram illustrating a frame format used for data transmission in a network. 11-1n...External system, 21-2n...Data transmission line, 31-3n...Data transmission device, 4...Network transmission line, 1゛woj7-10...Mode setting frame decoding Mechanism, 30...
・Setting mode storage area, 40...External system side transmission/reception buffer, 50...
Address storage area, 60... Normal frame decoding mechanism, 70... Test mode response frame processing mechanism, 80... Test mode response frame transmission mechanism, 90... Test mode response frame storage area, 100... Network transmission path side transmission/reception buffer, 1
01... A control line that notifies that a mode setting frame has been detected, 601... A control line that refers to a stored address, 602... A control line that notifies that a normal frame has been received, 701. ... Control line that refers to the set mode, 702 ... 2 when sending the test mode response frame
-18- Control line 801... Control line that transmits the test mode response frame, 802... Control line that refers to the source address of the stored frame, 1000.1001, 2000.2001 ,3000.
4000.4001.6001...Data transmission line.

Claims (1)

[Claims] Consisting of a network transmission path, a plurality of data transmission devices arranged on the network transmission path, and a plurality of external systems connected to each of the data transmission devices, data is organized in frame units. An address storage area that stores and holds an address unique to the data transmission device used as a source or destination address when transmitting frames in a local area network that transmits frames; A special mode setting sent from an external system connected to a device and intended to set the data transmission device in either normal mode for normal processing or test mode for special processing for testing. a mode setting frame decoding mechanism that detects and notifies that the frame has been received; a setting mode storage area; and a setting mode storage area that decodes the information of the mode setting frame when notified that the mode setting frame has been received; a mode setting frame processing mechanism that sets either the mode or the test mode in a setting mode storage area; and a mode setting frame processing mechanism that receives a frame transmitted from an external system connected to the data transmission device to the data transmission device;
a normal frame decoding mechanism that detects and notifies that a normal frame having a source address different from the address stored in the address storage area is received from the network transmission path; a test mode response frame transmission mechanism that transmits a special test mode response frame notifying that the test mode is in which the normal frame is not received; Check the setting mode storage area,
If the mode set in the setting mode storage area is a test mode, a test mode response frame processing mechanism that instructs a test mode response transmission mechanism to transmit the test mode response frame; and a test mode response frame processing mechanism in which the test mode response is stored. A local area network characterized in that the data transmission device has a test mode response frame storage area, and a network transmission line side transmission/reception buffer that temporarily holds all frames received from the network transmission line.