JP4550299B2 - Multiplex transmission system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multiplex transmission system, and more particularly to a multiplex transmission system characterized by a fail-safe portion in a transmission line of the multiplex system.
[0002]
[Prior art]
In recent years, a transmission system provided with a loop-like or bus-like signal line is also used in railway ground facilities and the like. However, since extremely high reliability is required in equipment control for railways, factories, etc., it is common to construct a multiplex transmission system for data transmission.
[0003]
FIG. 14 is a block diagram showing the configuration of a conventional multiplex transmission system.
[0004]
The multiplex transmission system shown in FIG. 2A is configured by connecting a plurality of multiplex control devices 101 via three data transmission paths 108, 109, 110 of A system, B system, and C system.
[0005]
Each multiplex system control apparatus 101 is composed of A system, B system, and C system control apparatus sections 104, 105, and 106 that are configured by a control section 102 and a transmission section 103, and each control apparatus section 104, 105, and 106 is respectively configured. It is connected to the A system, B system, and C system data transmission paths 108, 109, and 110.
[0006]
Each of the control units 102 of these three systems performs data verification using the verification memory unit 107. As a result of the collation, the matched data is connected to another multiplex transmission apparatus 101 via the data transmission paths 108, 109, 110 connected to the transmission units 103.
[0007]
Each transmission unit 103 includes a memory 112 having the same size. This memory 112 is divided into areas corresponding to each transmission unit 103 of the same system in each multiplex system control apparatus 101 and used. FIG. 10B shows each memory 112 in the transmission unit 103. In the example shown in the figure, the area of the memory 112 is divided into five, the area corresponding to itself is a transmission area, and the other areas are reception areas.
[0008]
The transmission unit 103 transmits data to the same area of the system to all the memories of the other transmission units 103 corresponding to the transmission area. The areas other than the transmission area are assigned to areas for receiving transmission data from other transmission units 103. In this way, the same data exists at the same address on the memory 112.
[0009]
[Problems to be solved by the invention]
In the conventional multiplex transmission system, for example, when the A-system transmission unit 103 of the multiplex system 101a fails, the A-system transmission data is not transmitted to the other transmission units 103 connected to the same A-system. It will be. At this time, if the B-system transmission unit 103 of the other multiplex system control apparatus 101b fails, the B system of the other multiplex system apparatus 101b cannot take in data.
[0010]
In this case, the multiplex system control apparatus 101b cannot capture the data from the A system and the data from the B system of the multiplex system control apparatus 101a. Similarly, the multi-system control apparatus 101a cannot take in the A-system and B-system data of the multi-system control apparatus 101b.
[0011]
For this reason, since each system can exchange data only by the C system, it is impossible to perform multi-system collation confirmation. Such a failure is called a slap failure, and both the A system and the B system cannot be used even though the B system of the multiplex system apparatus 101a and the A system of the multiplex system apparatus 101b are in a healthy state. It will be.
That is, the conventional multiplex transmission system has a problem that even if there is no failure in the rest of the transmission system, the entire transmission system becomes unusable due to a failure at one location.
[0012]
The present invention has been made in consideration of such circumstances, and even when a failure occurs in some transmission systems, the entire transmission system becomes unusable due to the failure while maintaining data reliability. It is an object of the present invention to provide a multiplex transmission system that can prevent the above as much as possible.
[0013]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention corresponding to claim 1 is provided with three control units that handle the same data to form three systems, and data verification is performed between the respective control units to ensure the reliability of the handled data. In a multiplex transmission system comprising a network with a multiplex system control device that enhances performance as a node, provided for each of the control units, receiving transmission data from the control unit to other nodes, from other nodes Transmission means for providing the received data to the control unit, a data transmission path for connecting the multiplex system control devices, and a control output means for outputting a control for controlling the control device And the transmission means provided corresponding to one of the three control sections as a transmission responsible transmission means, and diagnosis for diagnosing whether an abnormality has occurred in the transmission responsible transmission means system And switching means for changing the transmission handling transmission means to another transmission means The three control units perform data verification between the control units when handing over the transmission data to the transmission means, Said Transmission means for sending From The collated data is sent out, and each control unit collates the received data received from the corresponding transmission unit provided between the control units, and the control output unit includes the three control units. Receive control signals collated between the control units from each of the control units, and if two or more of the received three control signals match, control output to the control device, When the diagnosis means diagnoses that the transmission responsible transmission means is abnormal, any one of the other two systems other than the system diagnosed as abnormal by the switching means Change to the transmission means of the system, other than the system diagnosed as the abnormality The received data is received by the other two systems, By the transmission handling transmission means after the change The transmission data is transmitted.
[0014]
In the present invention, since each system is connected by a single data transmission line and data is collated between the control units and data is transmitted from the transmission means in charge of transmission, a failure occurs in some transmission systems. Even if it occurs, it is possible to prevent the entire transmission system from becoming unusable due to the failure while maintaining data reliability.
[0017]
Next, the claim 2 The invention corresponding to 1 In the invention corresponding to the above, the transmission means other than the transmission charge transmission means is configured to receive the output from the transmission charge transmission means in the same multiplex system control device, and the diagnosis means is a transmission means other than the transmission charge transmission means. This is a multiplex transmission system for diagnosing whether the transmission responsible transmission means is normal based on received data.
[0018]
Since the present invention is provided with such means, it is possible to diagnose whether the system to which the transmission handling transmission means belongs is normal in the same multiplex system control apparatus and to perform necessary switching.
[0019]
Next, the claim 3 The invention corresponding to claim 1 , 2 In the invention corresponding to the above, the transmission means includes a common memory for data transmission / reception composed of a plurality of regions divided into regions for each multiplex control device and overlaid on the same region for each system in the same multiplex control device. The multiplex transmission system provided.
[0020]
Since the present invention is provided with such means, the same effect as the invention corresponding to claims 1 and 2 can be obtained, and an efficient multiplex system can be constructed.
[0021]
Next, the claim 4 The invention corresponding to 3 In the invention corresponding to the above, the common memory is provided with a diagnostic area for receiving diagnostic information of the node in addition to the data transmission / reception area, and the diagnostic means is in charge of transmission based on the information written in the diagnostic area. This is a multiplex transmission system for diagnosing whether the transmission system is normal.
[0022]
Since the present invention is provided with such means, a more reliable abnormality diagnosis can be performed.
[0023]
Next, the claim 5 The invention corresponding to 3 Or 4 In the invention corresponding to the above, the common memory has an area for data transmission / reception corresponding to each system, and corrects the data after checking the data of each system at the time of data reception to capture correct data. This is a multiplex transmission system.
[0024]
Since the present invention is provided with such means, communication with higher reliability can be performed.
[0025]
Next, the claim 6 The invention corresponding to 1 ~ 5 In the invention corresponding to the above, a bypass circuit between nodes configured to be able to disconnect any transmission means from the data transmission path is provided, and the switching means is in charge of sending by controlling the bypass circuit. transmission This is a multiplex transmission system for switching means.
[0026]
Since the present invention is provided with such means, it is possible to disconnect the node in which the failure has occurred from the transmission line and prevent adverse effects on other nodes.
[0027]
Next, the claim 7 The invention corresponding to 6 In the invention corresponding to the above, the transmission means includes response means for returning a response to the data received from the adjacent node, and checks the response to confirm whether or not the adjacent node and the own node are normal. It is a multiplex transmission system provided with transmission diagnosis means.
[0028]
Since the present invention is provided with such means, it is possible to easily detect whether the data transmission path itself is normal.
[0029]
Next, the claim 8 The invention corresponding to 7 2 is a multiplex transmission system in which the data transmission path has a bus configuration.
[0030]
Since the present invention is provided with such means, the node can be easily separated.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
[0034]
(First Embodiment of the Invention)
FIG. 1 is a configuration diagram showing an example of a multiplex transmission system according to the first embodiment of the present invention.
[0035]
The multiplex transmission system shown in FIG. 1 (a) gives a control signal to various devices such as a switch and a signal device, and also acquires a plurality of multiplex control devices 1 (# 1, # 1) for transmitting data. # 2,... Are connected in a loop via a transmission line 2 such as an optical cable.
[0036]
In order to ensure high reliability, the multiplex system control device 1 includes a system A control device unit 3A, a system B control device unit 3B, and a system C control device unit 3C (hereinafter simply referred to when the system is not considered). A control unit 3). Each control unit 3A, 3B, 3C is connected to the loop transmission line 2 and exchanges data with other multiplex system control unit 1. Further, when outputting a control signal to a device to be controlled or transmitting data to another multiplex system control device 1, each control device unit 3A, 3B, 3C verifies the received signal in the verification memory unit 4. It is supposed to be.
[0037]
Each control unit 3 includes a control unit 5 and a transmission unit 6. The control unit 5 is a computer element including a CPU and memory means, and is composed of, for example, PLC, PC, LON, CAN, etc., and executes control of each unit such as data collation, data input / output processing, and transmission unit 6.
[0038]
On the other hand, each transmission unit 6 is connected to the loop-shaped transmission line 2 and includes a common memory 7 (reference numerals 7A, 7B, and 7C are used to indicate systems). The transmission unit 6 uses this common memory 7 to transmit data between the control unit 5 in its own control device unit 3 and another control unit 5 (including the control unit 5 of another multi-system control device 1). It is configured to be possible.
[0039]
FIG. 1B shows a memory map of the common memory 7 in each system (A system, B system, C system) of each multi-system control device 1.
[0040]
The common memory 7 is a dual-port memory that can be read and written from the control unit 5 of the own system and the other transmission unit 6, and is divided into the same number of areas as the multiplex system control device 1 connected in the multiplex system transmission system. In addition, each region corresponds to each multiplex system control device 1.
[0041]
Each area of the common memory 7 is set to one of a transmission state, a stop state, and a reception state under the control of the transmission unit 6. Among these, either the transmission state or the stop state is set in the area corresponding to the own multiplex control apparatus 1 (hereinafter also referred to as the transmission area), and all the areas corresponding to the other multiplex control apparatuses 1 are all set. Set to receive state.
[0042]
Further, one multi-system control device 1 has three systems of A system, B system, and C system, and a common memory 7 is provided for each of them. Regardless of this configuration, each common memory 7A is provided. , 7B, and 7C are divided corresponding to only the multiplex system control device 1. Therefore, the transmission data from the other multiplex system control device 1 is received in the same area regardless of which is transmitted from the A system, the B system, or the C system.
[0043]
When transmitting data from the transmission unit 6, the corresponding area of the other common memory 7 in the same control device unit 3 is set to a stopped state. FIG. 1B shows a state in which the A system is set to the transmission state and the B system and the C system are set to the stop state.
[0044]
Next, a more detailed configuration of the multiplex system control device 1 will be described regarding the relationship between the control target and the device and the memory switching when a failure occurs in the transmission unit 6 and the like.
[0045]
FIG. 2 is a block diagram showing a detailed configuration example of the multiplex system control apparatus in this embodiment.
[0046]
First, the data input / output relationship with the control device 11 will be described.
[0047]
The control signal to the control device 11 received from the common memory 7 is compared with the data of the other two systems by the 3 system verification processing unit 21 of the control unit 5 to confirm that they match. The comparison memory unit 4 is used for this comparison. After confirming the match, a control signal is input to the collation output / input distribution unit 13 via the input / output interface 12, and if two or more of the three inputs match, a control output is made to the control device 11. The
[0048]
On the other hand, when the control device 11 is a sensor or the like, it is input to the 3-system verification processing unit 21 of the control unit 5 via the verification output / input distribution unit 13 and the input / output interface 12 that have received the device output. The data is written in the common memory 7 of the system that is in the transmission state after the third system collation is performed by the unit 21. Then, the contents written in the common memory 7 are transmitted to the other multiplex system control device 1 as the output of the control device 11.
[0049]
Next, a configuration relating to memory switching when a failure occurs in the transmission unit 6 or the like in the multiplex system control apparatus 1 will be described with reference to FIG.
[0050]
First, the transmission unit 6 is configured to perform data transmission processing, and includes a self-diagnosis unit 22 in addition to the common memory 7 described above. When the self-diagnosis unit 22 diagnoses that a failure has occurred in the transmission unit 6 to which it belongs, the self-diagnosis unit 22 notifies the abnormality monitoring unit 23 of the control unit 5 to that effect.
[0051]
The control unit 5 is configured to execute various control processes as described above, and includes the abnormality check unit 23 and the memory switching unit 24 in addition to the 3-system verification processing unit 21 as part of the processing function. Yes. When the abnormality monitoring unit 23 receives a notification that the transmission unit 6 has failed from the self-diagnosis unit 22 of the transmission unit 6 or detects the occurrence of a failure by the self-diagnosis function of the control unit 5 itself, the abnormality monitoring unit 23 The unit 3 notifies the memory switching unit 24 of all of the A system, the B system, and the C system that a failure has occurred.
[0052]
When the memory switching unit 24 receives from the abnormality monitoring unit 23 that a failure has occurred in any of the control device units 3, first, if the own system has failed, Lock the region to a stopped state. In addition, when other than the own system has failed, the transmission area of the own system is set to the transmission state in accordance with a predetermined priority order, and data is transmitted instead of the failed system.
[0053]
Although not specifically shown, the transmission line 2 is made redundant (eg, duplexed) separately from each system in this embodiment, and one signal line constituting the transmission line 2 is disconnected. Even in this case, data transmission is secured by another redundant signal line.
[0054]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0055]
First, data transmission in a normal state in which no failure has occurred is as described in the data input / output relationship with the control device 11.
[0056]
In other words, as shown in the memory map of FIG. 1, the data to be sent is data in the area (transmission state) transmitted by the common memory 7A in the A-system control device section 3A of the multiplex system control device 1 (# 1). The data is copied to all the memory areas (reception states) of the transmission unit 6 in the other multiple system control device 1 (# 2) or the like at the same position.
[0057]
In each of the control device units 3A, 3B, and 3C of the other multiplex system control device 1 (# 2), the data sent from the multiplex system control device 1 (# 1) can be extracted by extracting the data at the corresponding position. Become. In this case, since the collation memory 4 is used to collate data to be transmitted in advance by the 3 system collation processing unit 21 of the control unit 3 in the A system, the B system, and the C system, at least the transmission is performed. The 3 system data at the time is the same value.
[0058]
That is, as shown in FIG. 1 (b), the A system, the B system, and the C system of other multiplex system control devices receive signals regardless of whether the A system transmits, the B system transmits, or the C system transmits. The transmission areas of the data to be transmitted are overlapped so that the same result is obtained, and when the A system transmits, the B system and the C system stop (stop) the transmission. At this time, a system sending data is called a master system, and a system not sending data is called a slave system. In this example, the slave system is the B system and the C system, and the transmission area is in a stopped state.
[0059]
Next, a case where a failure occurs in the multiplex system control apparatus 1 will be described.
[0060]
When a failure occurs in the A-system transmission unit 6 or when the A-system control unit 5 becomes abnormal, the A-system cannot transmit normal data. Alternatively, transmission is continued when the C system is in the transmission state. In this case, in the other multi-system control device 1, data is continuously taken in without being aware that the transmission source has been switched from the A system to the B system. The failure of the transmission unit 6 is detected by the self-diagnosis unit 22, the abnormality of the control unit 5 is detected by a self-diagnosis function (not shown), and switching is performed by notification from the abnormality monitoring unit 23 and switching processing by the memory switching unit 24. Realized.
[0061]
In this case, since all the transmission units 6 receive the data on the data receiving side, even if one system fails, the remaining systems can receive and take in the data. Further, the control unit 5 having the failed transmission unit 6 takes in the data of the other system from the collation memory 7 and fetches the data via the collation memory 7 when they match as a result of the collation. Thereby, control with respect to the control apparatus 11 is continued, maintaining safety | security.
[0062]
As described above, since the multiplex transmission system according to the embodiment of the present invention is configured to connect all transmission units 6 of the A system, the B system, and the C system to one transmission line 2, data of other systems Can be imported. For this reason, when the transmission system fails, the transmission of the system is prohibited, and the transmission system is switched in the control unit 5 on the receiving side by continuing the transmission of other systems that are not in failure. Communication can be continued without being aware of this.
[0063]
Therefore, for example, in the case where there is a crushing failure in which a transmission device of a different system fails between two multiplex transmission devices, it is possible to prevent the two systems from being unable to transmit.
[0064]
As a result, it is possible to construct a transmission system capable of sufficiently ensuring data transmission continuity when a failure occurs while maintaining data reliability.
[0065]
In the system of the present embodiment, a triple transmission system can be established by one transmission line 2 by performing the three-system verification immediately before data transmission. Therefore, there is no need to triple the transmission cable, and the wiring of the optical cable can be reduced. Even when the optical cable is duplicated in consideration of the disconnection of the transmission part, the number of wirings can be reduced as compared with the prior art.
[0066]
(Second Embodiment of the Invention)
In the first embodiment, when the transmission area is not in the transmission state, the stop state is set. However, in this embodiment, the transmission unit 6 that is not in the transmission state is set in the reception state to control its own multi-system. The transmission output content of the device 1 can be checked.
[0067]
FIG. 3 is a block diagram showing a detailed configuration example of the multiplex system control apparatus in the multiplex transmission system according to the second embodiment of the present invention. The same parts as those in FIG. Only the different parts are described here.
[0068]
In this multiplex transmission system, as shown in FIG. 4, a transmission area that is not in the transmission state in the default state is set to the reception state, and the transmission data monitoring unit 25 is provided in each control device unit 3 of the multiplex system control device 1. And is configured in the same manner as in the first embodiment except that a function is added to the memory switching unit 24 accordingly.
[0069]
FIG. 4 is a diagram illustrating an example of a memory map of the common memory according to the present embodiment and an example of the entire system configuration.
[0070]
When the transmission data monitoring unit 25 is in the reception state, the transmission data monitoring unit 25 receives the reception data in the transmission region in the common memory 7 and the verified data performed by the 3 system verification processing unit 21 before data transmission. Compare Here, if the two do not match, the memory switching unit 24 of each system is notified that a failure has occurred in the system currently in the transmission state.
[0071]
The memory switching unit 24 is configured in the same manner as in the first embodiment, and also switches the state of the transmission area when receiving a failure notification from the transmission data monitoring unit 25. The memory switching unit 24 that has received a notification that a failure has occurred in its own system switches itself to a stopped state, and the other memory switching units 24 switch their transmission area from the reception state to the transmission state in accordance with the priority order. . It should be noted that the reception state is kept in the lower priority system.
[0072]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0073]
In the present embodiment, the main system is a system in a transmission state, and the sub system is in a reception state. Therefore, as shown in FIG. 4, data transmission is performed from the master system of the multiplex system control apparatus 1, and transmission of the master system is written in the stopped area even though transmission is stopped in the slave system. Yes (receiving status).
[0074]
The data written in the slave system is taken in as reception data, and the content is evaluated by the transmission data monitoring unit 25 to check whether or not the master system is transmitting correct data.
[0075]
That is, the slave system compares the data to be transmitted if it is the master system with the captured data, and determines whether the data sent by the master system is correct.
[0076]
If they do not match, the main memory switching unit 24 is notified of the abnormality and stops transmission of the main system. On the other hand, when the master system is abnormal, one of the slave systems is changed to the master system, and data transmission is started.
[0077]
As described above, the multiplex transmission system according to the embodiment of the present invention receives the data transmitted by the master in the control device unit 3 which is the slave, and confirms the transmission contents of the master. Since the diagnosis is performed, it can be confirmed that normal transmission is performed, and the reliability of transmission data can be further improved.
[0078]
(Third embodiment of the invention)
In this embodiment, a diagnostic information area for each control device is provided separately from the actual data area in the common memory in the first embodiment so that other devices can check the status of the partner system. Is.
[0079]
FIG. 5 is a block diagram showing a detailed configuration example of a multiplex system control apparatus in a multiplex transmission system according to a third embodiment of the present invention. The same parts as those in FIG. Only the different parts are described here.
[0080]
FIG. 6 is a diagram showing an example of a memory map of the common memory in the present embodiment and an example of the overall system configuration.
[0081]
In this multiplex transmission system, each control device unit 3 of the multiplex system control device 1 is provided with another device state monitoring unit 26, and a diagnostic information area 7 '(# 2) is added to the common memory 7'. Except for, the configuration is the same as in the first embodiment.
[0082]
As shown in FIG. 6, the common memory 7 'according to the present embodiment includes a data area 7'(# 1) and a diagnostic information area 7 '(# 2), of which the data area 7'(# 1). Corresponds to the common memory 7 in the first embodiment.
[0083]
The diagnostic information area 7 '(# 2) is divided into areas corresponding to each multi-system control device 1, and the areas corresponding to each device 1 are further divided into A-system, B-system and C-system areas. Has been. An area corresponding to the own system of the own apparatus 1 in the diagnosis information area 7 '(# 2) is in a transmission state, and diagnostic information is provided to an area of the corresponding system of the other apparatus 1. . An area that is not in the transmission state of the diagnosis information area 7 ′ (# 2) is in a reception state and receives diagnosis information.
[0084]
The other apparatus state monitoring unit 26 provides diagnostic information to be transmitted to the diagnostic information area 7 ′ (# 2), and transmits the received other multiplex system control apparatus 1 or other control apparatus unit 3 to the diagnostic information area 7 ′. Taken out from (# 2), when an abnormality is detected, it is notified to its own three-system collation processing unit 21 and also to the abnormality monitoring unit 23 of the multiplex system control device 1, and external (display device, alarm device, or host device) Monitoring and control device).
[0085]
The 3-system verification processing unit 21 is configured in the same manner as in the first embodiment, and when receiving a notification from the other device state monitoring unit 26, does not take in data from the abnormality detection target. .
[0086]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0087]
First, the operation state of each control device is placed on the data transmission path 2 so that it corresponds to each diagnosis information area 7 '(# 2) and it can be determined whether the other transmission unit 6 or the control unit 5 has failed. Diagnostic information is being sent. This failure diagnosis information is realized by using, for example, a flag that changes every transmission, and normal transmission is performed while the flag information is changing normally.
[0088]
When the flag information no longer changes, this is detected by the other device state monitoring unit 26, and there is an abnormality in the multiplex system control device 1 and the system control device unit 3 in the corresponding region in the diagnosis information area 7 ′ (# 2). It is determined that it has occurred.
[0089]
This abnormality occurrence result is notified to the 3 system collation processing unit 21. The collation processing unit 21 stops the acquisition of information from the system in the multiplex system control device 1 in which the abnormality has occurred, and the fact that the abnormality has occurred Is notified to the multiplex system control apparatus 1.
[0090]
Receiving this notification, the abnormality monitoring unit 23 of the control device unit 3 notifies each unit that the master / slave switching should be performed, and the system switching is executed in the same manner as in the first embodiment.
[0091]
As described above, in the multiplex transmission system according to the embodiment of the present invention, the diagnosis information area 7 ′ (# 2) is provided in the common memory 7 ′, and not only the data transmission but also the operation state for each control device is set. Since it is placed on the transmission line 2, the operation state can be confirmed by another control apparatus 1, and correct data can be taken in after confirming the validity of the data.
[0092]
In addition, the control device 1 in which the abnormality has occurred can be notified of the abnormality that has been detected and the master / slave switching can be performed.
[0093]
(Fourth embodiment of the invention)
In this embodiment, the common memory of each system can deal with all of the A system, the B system, and the C system, and the same effect as that of the first embodiment is obtained by eliminating the switching between the main system and the slave system. The data verification of each system is made possible in the same common memory.
[0094]
FIG. 7 is a block diagram showing a detailed configuration example of a multiplex system control apparatus in a multiplex transmission system according to a fourth embodiment of the present invention. The same parts as those in FIG. Only the different parts are described here.
[0095]
FIG. 8 shows an example of a memory map of the common memory according to the present embodiment and an example of the overall system configuration.
[0096]
In this multiplex transmission system, each control device unit 3 of the multiplex system control device 1 is provided with a common memory monitoring unit 29, and each common memory 7 ″ is adapted to all A systems, B systems, and C systems. Except for this point, the configuration is the same as that of the first embodiment.
[0097]
As shown in FIG. 8, the common memory 7 ″ according to this embodiment includes an A-system data area 7 ″ (# 1), a B-system data area 7 ″ (# 2), and a C-system data area 7 ″ (# 3), and the data area 7 ″ (#n; n = 1, 2, 3) in each system corresponds to the common memory 7 in the first embodiment.
[0098]
The transmission area in each data area 7 ″ (#n) is set so as to be in a transmission state corresponding to each system such that the A system is in the transmission state in the A system data area 7 ″ (# 1). Yes. Therefore, in the A system data area 7 ″ (# 1), the A system is the main system, in the B system data area 7 ″ (# 2), the B system is the main system, and in the C system data area 7 ″ (# 3). System C is the main system, which enables simultaneous acquisition of data for all systems.
[0099]
The common memory monitoring unit 29 collates the data of each system stored in each data area 7 ″ (#n) in the same common memory 7 ″, confirms the validity, and selects and imports correct data. It has become. The legitimacy confirmation result and the fetched data are delivered to the 3 system verification processing unit 21.
[0100]
The three-system collation processing unit 21 is configured in the same manner as in the first embodiment, and collates the contents of the common memories 7 ″ A, 7 ″ B, and 7 ″ C of each system with the collation memory unit 4, etc. When the collation cannot be performed due to an abnormality of the control device unit 3, the processing as the control unit 5 is executed based on the validity confirmation result from the common memory monitoring unit 29 and the fetched data.
[0101]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0102]
In this multiplex transmission system, three main-slave relationships in the first embodiment are prepared, and transmission areas and reception areas of A-system, B-system, and C-system are assigned as separate areas. . Data is always taken in for each of these systems, and data determined to be faulty is not used.
[0103]
In addition, when a plurality of locations have failed, there may be a case where collation among the A system control device unit 3A, the B system control device unit 3B, and the C system control device unit 3C becomes impossible. However, in such a case, the received data of each data area 7 ″ (#n) in one common memory 7 ″ is compared and collated by the common memory monitoring unit 29, and the above collation is performed only by one system controller unit 3. The same collation is performed.
[0104]
Even in the case where the 3 system collation using the collation memory unit 4 is impossible, the 3 system collation processing unit 21 executes various processes based on the collation result from the common memory monitoring unit 29.
[0105]
As described above, the multiplex transmission system according to the embodiment of the present invention stores all multiplex data on the same transmission line, and is usually referred to as A system and A system, B system and B system. In addition, if the data of the same system is used and the other system fails, the data of the other system flowing on the same line is adopted, so the data of the system that is normally captured If is abnormal, data of other systems can be taken in.
[0106]
Therefore, after confirming the validity of the data, the correct data can be selected and loaded.
[0107]
Even when the verification between the control device units 3 is impossible, by performing data verification in the same common memory 7 ″, the verification function can be maintained even when there are many faults.
[0108]
(Fifth embodiment of the invention)
In the first to fourth embodiments, the state switching (transmission state, reception state, stop state) of each area of the common memory 7 is realized by software means based on the function of the transmission unit 6. However, this embodiment provides means for realizing this switching by hardware.
[0109]
FIG. 9 is a block diagram showing a configuration example of a control unit and a transmission path part in a multiplex transmission system according to a fifth embodiment of the present invention. The same parts as those in FIGS. Is omitted, and only different parts will be described here.
[0110]
This multiplexed transmission system is configured in the same manner as in any one of the first to fourth embodiments, in addition to the configuration shown in FIG.
[0111]
The control device unit 3 includes a first transmission unit 31, a first reception unit 32, a second transmission unit 33, and a second reception unit 34.
[0112]
The transmission path 2 includes a transmission side transmission path 36 and a reception side transmission path 37. Here, for convenience, a signal line that transmits a signal from the C system side to the A system side is referred to as a transmission side transmission path 36, and a signal line that transmits a signal from the A system side to the C system side is a reception side transmission path. 37, the signal transmission side or the reception side is merely a problem as to which side is relative to the signal line for data transmission.
[0113]
The switching units 38A, 38B, 38C, 39A, 39B, and 39C provided on each transmission path 36 perform switching of each signal line under the control of the memory switching unit 24.
[0114]
Among these, in the transmission side transmission path 36, the signal line 36C1 branched from the signal line portion from the other multiplex system control device 1 is connected to the second receiving unit 34 of the C system control device unit 3C, and One branch signal line 36C2 is connected to the switching unit 38C. Further, in the switching unit 38C, the signal via the signal line 36C3 from the first transmission unit 31 of the C-system control unit 3C and the signal from the signal line 36C2 are switched by the memory switching unit 24. . The output from the switching unit 38C1 is input from the signal line 36BC to the second receiving unit 34 of the B-system control unit 3B via the signal lines 36B1 and B2, and is also input to the switching unit 38B. ing.
[0115]
That is, the connection configuration in the C system portion is similarly repeated in the B system A system. A section of the multiplex system control apparatus 1 in the path 36 is configured.
[0116]
On the other hand, in the reception side transmission path 37, the signal line 37A1 branched from the signal line portion from the other multiplex system controller 1 is connected to the first receiver 32 of the A system controller 3A and the other Branch signal line 37A2 is connected to the switching unit 39A1. In the switching unit 39A1, the signal via the signal line 37A from the second transmission unit 33 of the A-system control unit 3A and the signal from the signal line 37A2 are switched by the memory switching unit 24. .
[0117]
In the section of the multiplex system control apparatus 1 in the transmission side transmission path 36, the connection configuration in the A system portion is similarly repeated in the B system C system, and the signal lines 37A1, 37A2, 37A3, 37B1, 37B2, 37B3, 37C1, and so on. 37C2, 37C3 and the switching units 39A, 39B, 39C constitute the same section.
[0118]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0119]
In the transmission side transmission path 36 and the reception side transmission path 37 in FIG. 9, each of the switching sections 38A, 38B, 38C, 39A, 39B, 39C and the corresponding signal line 36A2, 36B2, 36C2, 37A2, 37B2, respectively. A bypass circuit is formed in combination with 37C2.
[0120]
The first transmission unit 31 and the second reception unit 34 in the transmission units 6 of the A, B, and C systems correspond to the transmission areas in the common memory 7, and similarly, the transmission units 6 of the A, B, and C systems. The second transmission unit 33 and the first reception unit 32 in FIG. 4 correspond to areas where data is received from other multiplex system control devices 1.
[0121]
Therefore, the switching control of each switching unit 38A to 39C is performed by the control of the memory switching unit 24 that has received an abnormality notification or the like, and the common memory 7 realizes switching between the transmission state and the stop state, and between the reception state and the stop state. Is done.
[0122]
For example, when making it correspond to 1st Embodiment, the transmission part 6 corresponding to the system | systems other than the transmission state of a transmission area can be bypassed, and it can be set as the state shown in FIG.1 (b).
[0123]
When the transmission unit 6 fails, both the switching units 38 and 39 are switched so that the transmission unit 6 is bypassed, and the transmission unit 6 is disconnected from the transmission system.
[0124]
As described above, the multiplex transmission system according to the embodiment of the present invention includes any one of the switching units 38A, 38B, 38C, 39A, 39B, 39C and the corresponding signal lines 36A2, 36B2, 36C2, 37A2, respectively. Since the bypass circuit is formed by the combination with 37B2 and 37C2, the state control of each area of the common memory 7 can be realized by the control of the bypass circuit. That is, the memory switching in the first to fourth embodiments is realized by a circuit on the transmission path.
[0125]
In addition, when some abnormality occurs in the control unit 3 such as a failure of the transmission unit 6, the control unit 3 can be disconnected from the transmission line 2 by bypassing the signal with a bypass circuit. As a result, it is possible to prevent the occurrence of a failure such as the occurrence of a power shutdown or a short-circuit failure and the disconnection of the line, and the transmission line can be prevented from being adversely affected. In other words, the spread of abnormalities can be prevented.
[0126]
In the present embodiment, the case where the transmission path, the transmission unit, and the reception unit are separated on the transmission side and the reception side has been described. However, the embodiment is not limited to such a case, and a single signal line is used. It is also possible to use both transmission and reception, and according to this, the transmission unit and the reception unit may be single. This also applies to the following embodiments.
[0127]
(Sixth embodiment of the invention)
Also in the present embodiment, similarly to the fifth embodiment, the state switching of each area of the common memory 7 (transmission state, reception state, stop state) is realized by hardware.
[0128]
FIG. 10 is a block diagram showing a configuration example of a control unit and a transmission path part in a multiplex transmission system according to a sixth embodiment of the present invention. The same parts as those in FIGS. Is omitted, and only different parts will be described here.
[0129]
This multiplexed transmission system is configured in the same manner as in any one of the first to fourth embodiments, in addition to the configuration shown in FIG.
[0130]
First, the configuration of the control device unit 3 is the same as that of the fifth embodiment.
[0131]
The transmission path 2 includes a transmission side transmission path 41 and a reception side transmission path 42. Here, for convenience, a signal line that transmits a signal from the C system side to the A system side is referred to as a transmission side transmission path 41, and a signal line that transmits a signal from the A system side to the C system side is a reception side transmission path. 42, the signal transmission side or the reception side is merely a problem as to which side is relative to the signal line for data transmission.
[0132]
The transmission-side transmission path 41 branches to signal lines 41A1, 41B1, and 41C1 corresponding to the A system, the B system, and the C system from the input side from the other multisystem control apparatus 1 in the section of the multisystem control apparatus 1, respectively. The signal lines 41A1, 41B1, and 41C1 are input to the second receiving unit 34 of the corresponding system. In addition, signal lines 41A2, 41B2, and 41C2 are drawn out from the first transmission unit 31 in the transmission unit 6 of each system, and these are further connected on the output side to the other multiplex system control device 1 to form a single line. Become a signal line.
[0133]
Each of the signal lines 41A2, 41B2, and 41C2 includes disconnecting portions 43A, 43B, and 43C that can separate the respective systems from the transmission path 2 by switching the signal lines between the disconnected state and the connected state. Is provided.
[0134]
The disconnecting units 43A, 43B, and 43C place the signal line in a disconnected state based on the disconnection signal from the memory switching unit 24. The disconnection condition may be a disconnection signal from the memory switching unit 24 of its own system or the like. It is different depending on whether the signal is a disconnection signal from the memory switching unit 24 of the system.
[0135]
That is, OR circuits 44A, 44B, and 44C and AND circuits 45A, 45B, and 45C are provided corresponding to the separation parts 43A, 43B, and 43C, respectively.
[0136]
Each OR circuit 44A, 44B, 44C receives an output from the memory switching unit 24 of the own system and an output from the AND circuit 45 of the own system. Therefore, in the case of a disconnection signal from the own system, the separation part 43 operates as it is.
[0137]
The AND circuits 45A, 45B, and 45C are inputted with disconnection signals from two systems other than the own system. Since the OR circuit 44 operates the separation unit 43 based on the disconnection signal output of the AND circuit 45 of the own system, the system is also disconnected even when two systems other than the own system output the disconnection signal.
[0138]
On the other hand, the receiving side transmission line 42 is connected to the signal lines 42A1, 42B1, 42C1 corresponding to the A system, the B system, and the C system from the input side from the other multiplexing system control apparatus 1 in the section of the multiplexing system control apparatus 1, respectively. The signal lines 42A1, 42B1, and 42C1 are input to the first receiving unit 32 of the corresponding system. In addition, signal lines 42A2, 42B2, and 42C2 are respectively drawn from the first transmission unit 32 in the transmission unit 6 of each system, and these are further connected on the output side to the other multiplex system control device 1 to form a single line. Become a signal line.
[0139]
Each of the signal lines 42A2, 42B2, and 42C2 includes disconnecting portions 47A, 47B, and 47C that can separate the respective systems from the transmission path 2 by switching the signal line between the disconnected state and the connected state. Is provided.
[0140]
OR circuits 48A, 48B, and 48C, and AND circuits 49A, 49B, and 49C are provided corresponding to the separation portions 47A, 47B, and 47C, respectively. By the OR circuit 48, the AND circuit 49, and the memory switching unit 24, each separation unit 47 is controlled in the same manner as the separation unit 43 in the transmission side transmission path 42.
[0141]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0142]
That is, in the present embodiment, if the control device unit 3 itself determines that it is abnormal by self-diagnosis or the like and a disconnection signal (corresponding to a memory switching signal) is output from the memory control unit 24, the disconnection unit 43 and 47 operate, and the transmission lines 41 and 42 are appropriately disconnected from the transmission line 2.
[0143]
In addition, when a certain control device unit 3 determines that another control device unit 3 is abnormal, a disconnection signal is output from the memory control unit 24, and two systems other than the other control device unit 3 are disconnected. When outputting a signal, the separating parts 43 and 47 are operated to disconnect the transmission lines 41 and 42 from the transmission line 2 as appropriate.
[0144]
In the case of the present embodiment, since data is input in parallel to each control device unit 3, these input data may be acquired after collation.
[0145]
As described above, in the multiplex transmission system according to the embodiment of the present invention, when the transmission unit 6 and the reception unit of the transmission unit 6 are connected in parallel to the transmission path 2 and the transmission data is abnormal, Since the transmission unit of the transmission system is disconnected, the control device unit 3 in which a failure has occurred can be disconnected from the transmission line 2 without using a bypass circuit. Therefore, the memory switching in the first to fourth embodiments can be realized by a circuit on the transmission line, and adverse effects on other systems due to the occurrence of a failure can be prevented.
[0146]
Since the disconnection signal from each memory switching unit 24 is input to the disconnecting units 43 and 47 via the AND circuits 45 and 49 and the OR circuits 44 and 48, the disconnection from the other control unit 3 is performed. Control can be easily realized, and it is possible to accept a disconnection instruction from another system only when a two-system coincidence condition is provided and an abnormality is surely detected.
[0147]
(Seventh embodiment of the invention)
The present embodiment is a system that can confirm whether or not the data transmission path itself is normal in the first to sixth embodiments.
[0148]
FIG. 11 is a block diagram showing a configuration example of a control unit and a transmission path part in a multiplex transmission system according to a seventh embodiment of the present invention. The same parts as those in FIGS. Is omitted, and only different parts will be described here.
[0149]
This multiplexed transmission system is configured in the same manner as in any one of the first to fourth embodiments, in addition to the configuration shown in FIG. For the transmission line 2, the same form as that in the case where there is no switching unit and bypass signal line in the fifth embodiment is used.
[0150]
Each control unit 3 is provided with a normal response unit 50, and in addition to this, a function is added to the self-diagnosis unit 22 'and is configured in the same manner as in the first to sixth embodiments.
[0151]
The normal response unit 50 receives the data 51 from the adjacent control device unit 3 and transmits the normal response data 52 to the transmission destination of the data 51 when the self-diagnosis unit 22 ′ determines that the normal reception is made. In this way, the first or second transmitter 31 or 33 is controlled.
[0152]
The self-diagnosis unit 22 'notifies the abnormality monitoring unit 23 when any abnormality is detected as in the first to sixth embodiments. In this embodiment, the self-diagnosis unit 22' When the data 51 from 3 is normally received, the normal response unit 50 is instructed to return the normal response data 52 to the transmission source. If the reception is abnormal, the abnormality monitoring unit 23 is notified to that effect.
[0153]
Further, when the self-diagnosis unit 22 'is the transmission side and the normal response data 52 does not return even after a certain period of time has elapsed after transmission, the self-diagnosis unit 22' has an abnormal transmission path or transmission destination to the transmission destination. And the monitoring unit 23 is notified to that effect.
[0154]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0155]
In the case shown in FIG. 11B, first, when transmission data 51 is transmitted from the transmission unit 6 of the A-system control unit 3A, transmission is performed by the reception unit 32 of the B-system control unit 3B connected adjacently. Data 51 is received.
[0156]
The received data is transmitted to the C-system control unit 3C on the opposite side to the A-system, and the self-diagnostic unit 22 'is diagnosed as having no abnormality, and the transmission data 51 is normally received from the A-system. The normal response data 52 to be transmitted is transmitted to the A system by the normal response unit 50. Similarly, if the data transmitted from the B system to the C system is normal, the normal response data 52 is transmitted from the C system to the B system.
[0157]
If the received data 51 is abnormal or if the response to the transmission data 51 does not return for a certain period of time, the self-diagnostic unit 22 'diagnoses the transmission line as abnormal, and that is the reason for the abnormality in the control unit 5. The monitoring unit 23 is notified.
[0158]
As described above, the multiplex transmission system according to the embodiment of the present invention has a function of returning a reception confirmation response to the adjacent side when data is received from the connected adjacent transmission unit. It is possible to check the response of the transmission line with the adjacent transmission unit to confirm that the line is normal. That is, line diagnosis can be performed, and for example, disconnection of a transmission line can be detected.
[0159]
(Eighth Embodiment of the Invention)
In this embodiment, the transmission path 2 itself is duplicated to improve the reliability of the transmission circuit.
[0160]
FIG. 12 is a block diagram showing a configuration example of a control unit and a transmission path part in a multiplex transmission system according to an eighth embodiment of the present invention. The same parts as those in FIGS. Is omitted, and only different parts will be described here.
[0161]
This multiplexed transmission system is configured in the same manner as any one of the first to fourth embodiments except that the transmission path 2 is duplexed and a reception data selection circuit 55 is provided for switching. For the transmission line 2 other than the duplicated portion, the same form as in the case of the seventh embodiment is used.
[0162]
In the present embodiment, two transmission cables are wired between two reception data selection circuits 55 provided in the vicinity of the control device unit 3 on the reception side and the control device unit 3 on the transmission side. In the example of FIG. 12, the signal lines are 36 (# 1) and 36 (# 2) or 37 (# 1) and 37 (# 2). Among these, the first transmission path 2 (# 1) is formed by the signal lines 36 (# 1) and 37 (# 1), and the second transmission is performed by the signal lines 36 (# 2) and 37 (# 2). A path 2 (# 2) is formed.
[0163]
The reception data selection circuit 55 is adapted to detect signal changes on both transmission lines 2 (# 1) and 2 (# 2) and is normally received first, that is, on the signal line where the change has occurred first. And the transmission cable that transmits the data is connected to the control unit 3 side.
[0164]
Next, the operation of the multiplex transmission system in the present embodiment configured as described above will be described.
[0165]
For example, the output from the transmission unit 33 of the A-system transmission unit 6 is transmitted on two signal lines 37 (# 1) and 37 (# 2), and the data is first normal by the reception data selection circuit 55 on the reception side. The received data is transferred to the receiving unit 32. The same applies to data transmission in the reverse direction.
[0166]
As described above, in the multiplex transmission system according to the embodiment of the present invention, the line is duplicated, the transmission side simultaneously transmits to the two communication lines, and the reception side is normal first of the two lines. Since the data on the data receiving side is selected and received, data communication can be normally performed on the remaining healthy line when one line fails or is disconnected. Therefore, redundancy of the transmission circuit is achieved.
[0167]
(Ninth embodiment of the invention)
In this embodiment, the transmission path is a bus type in the first to eighth embodiments.
[0168]
FIG. 13 is a block diagram showing an example of a multiplex transmission system according to the ninth embodiment of the present invention. The same parts as those in FIGS. Only about.
[0169]
This multiplex transmission system is configured in the same manner as in any of the first to eighth embodiments, except that the transmission path 2 'is configured as a bus. That is, the transmission line 2 is directly connected to each transmission unit 6. FIG. 12 shows a case corresponding to the first embodiment.
[0170]
In the multiplex transmission system configured as described above, even if the transmission unit 6 is disconnected from the transmission path 2 ′, the transmission line itself is connected to each multiplex system control device 1. Therefore, abnormal transmission unit 6 can be disconnected without providing a bypass line or the like.
[0171]
As described above, in the multiplex transmission system according to the embodiment of the present invention, since the transmission line has a bus configuration, the transmission unit 6 can be easily disconnected without providing a bypass line or the like.
[0172]
Thus, since the transmission path 2 after disconnecting the transmission unit 6 maintains the connection state, it is possible to prevent the data transmission performance from being deteriorated even if the transmission unit 6 is disconnected.
[0173]
In addition, this invention is not limited to said each embodiment, It can change variously in the range which does not deviate from the summary.
[0174]
The method described in the embodiment is a program (software means) that can be executed by a computer (computer). It can be stored in a storage medium such as a memory, or transmitted and distributed via a communication medium. The program stored on the medium side includes a setting program for configuring software means (including not only the execution program but also a table and data structure) to be executed in the computer. A computer that implements the present apparatus reads the program recorded in the storage medium, constructs software means by a setting program in some cases, and executes the processing described above by controlling the operation by the software means.
[0175]
【The invention's effect】
As described above in detail, according to the present invention, even when a failure occurs in a part of the transmission system, it is possible to prevent the entire transmission system from becoming unusable due to the failure while maintaining data reliability. It is possible to provide a multiplex transmission system that can
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an example of a multiplex transmission system according to a first embodiment of the present invention.
FIG. 2 is an exemplary block diagram showing a detailed configuration example of a multiplex system control apparatus according to the embodiment;
FIG. 3 is a block diagram showing a detailed configuration example of a multiplex system control apparatus in a multiplex transmission system according to a second embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of a memory map of a common memory and an example of the entire system configuration according to the embodiment.
FIG. 5 is a block diagram showing a detailed configuration example of a multiplex system control apparatus in a multiplex transmission system according to a third embodiment of the present invention.
FIG. 6 is a diagram showing an example of a memory map example of a common memory and an example of the entire system configuration in the embodiment;
FIG. 7 is a block diagram showing a detailed configuration example of a multiplex system control apparatus in a multiplex transmission system according to a fourth embodiment of the present invention.
FIG. 8 is a diagram showing an example of a memory map example of a common memory and an example of the entire system configuration in the embodiment.
FIG. 9 is a block diagram illustrating a configuration example of a control unit and a transmission path in a multiplexed transmission system according to a fifth embodiment of the present invention.
FIG. 10 is a block diagram illustrating a configuration example of a control device unit and a transmission path part in a multiplexed transmission system according to a sixth embodiment of the present invention.
FIG. 11 is a block diagram illustrating a configuration example of a control unit and a transmission path in a multiplexed transmission system according to a seventh embodiment of the present invention.
FIG. 12 is a block diagram showing a configuration example of a control unit and a transmission path part in a multiplexed transmission system according to an eighth embodiment of the present invention.
FIG. 13 is a block diagram showing an example of a multiplex transmission system according to a ninth embodiment of the present invention.
FIG. 14 is a block diagram showing a configuration of a conventional multiplex transmission system.
[Explanation of symbols]
1 ... Multi-system controller
2, 2 '... Transmission path
3A ... System A control unit
3B ... B system control unit
3C ... C system control unit
4 ... Verification memory
5. Control unit
6 ... Transmission unit
7, 7A, 7B, 7C, 7 ', 7 "... Common memory
11 ... Control equipment
12 ... I / O interface
13 ... Collation output / input distribution section
21 ... 3 system verification processing part
22, 22 '... Self-diagnosis unit
23. Abnormality monitoring unit
24. Memory switching unit
25. Transmission data monitoring unit
26 ... Other device state monitoring unit
29 ... Common memory monitoring unit
31 ... 1st transmission part
32 ... 1st receiving part
33 ... 2nd transmission part
34. Second receiver
36: Transmission side transmission path
37 ... Reception side transmission path
38A, 38B, 38C, 39A, 39B, 39C ... switching unit
41 ... Transmission side transmission path
42 ... Reception side transmission path
43A, 43B, 43C ... separation part
44A, 44B, 44C ... OR circuit
45A, 45B, 45C ... AND circuit
47A, 47B, 47C ... separation part
48A, 48B, 48C ... OR circuit
49A, 49B, 49C ... AND circuit
50 ... Normal response part
51 ... Data
52 ... Normal response data
55. Reception data selection circuit

Claims (8)

A multi-system comprising a network with three control units that handle the same data as three nodes, and a multi-system control device that increases data reliability by collating data between the control units. In the transmission system,
Transmission means provided corresponding to each of the control units, receiving transmission data from the control unit to other nodes, and providing received data from other nodes to the control unit;
A data transmission path connecting the multiple control devices;
Control output means for outputting a control for controlling the control device ;
A diagnostic means for diagnosing whether or not an abnormality has occurred in a system of the transmission charge transmission means, the transmission means provided corresponding to one control section of the three control sections as a transmission charge transmission means;
Switching means for changing the transmission-in-charge transmission means to the other transmission means ,
The three control unit, when delivering the transmission data to the transmission means performs the data matching between the respective control unit, is sent to the verified data from the delivery charge transfer means,
Each of the control units collates the received data received from the corresponding transmission means provided between the control units,
The control output means receives a control signal collated between the control units from each of the three control units. If two or more of the received three control signals match, the control output means Control output for
When the diagnosis means diagnoses that the system in charge of transmission is abnormal, the switching means causes the transmission charge transmission means to transmit the transmission in any one of the other two systems. multi-system transmission system, characterized in that to change the unit, the other receives the received data in two systems, transmits the transmission data by the sending charge transfer means after the change. Transmission means other than the sending charge transmission means are configured to receive an output from the sending charge transmission means in the same multiplex system control device,
2. The multiplex transmission according to claim 1 , wherein the diagnosis means diagnoses whether the system of the transmission handling transmission means is normal based on data received by a transmission means other than the transmission handling transmission means. system. The transmission means is provided with a common memory for data transmission / reception, which is divided into regions for each multiplex system control device, and for each system in the same multiplex system control device, consisting of a plurality of regions superimposed on the same region The multiplex transmission system according to claim 1 or 2. The common memory includes a diagnostic area for receiving diagnostic information of the node in addition to an area for data transmission / reception,
It said diagnostic means, multiplexing based transmission system according to claim 3 Symbol mounting, characterized in that strains of the delivery charge transmitting means for diagnosing whether a normal based on the information the written in the diagnostic area. The common memory includes an area for data transmission / reception corresponding to each system ,
5. The multiplex transmission system according to claim 3 , wherein correct data is taken in after verifying the validity of the data by collating data of each system at the time of data reception . A bypass circuit between the nodes configured to be able to disconnect any of the transmission means from the data transmission path;
It said switching means, multiplex system transmission system of any one of claims 1 to 5, characterized in that switching the delivery charge transmitting means by controlling said bypass circuit. The transmission means includes response means for returning a response to data received from an adjacent node,
The multiplexing according to any one of claims 1 to 6, further comprising transmission diagnosis means for checking the response and confirming whether or not the adjacent node and the own node are normal. Transmission system. The multiplex transmission system according to any one of claims 1 to 7, wherein the data transmission path has a bus configuration .

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