JPH0234518B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field] The present invention relates to a time division multiplex transmission signal system.

[Background technology]

FIG. 1 is a model diagram of a system using time division multiplex transmission. A large number of terminal devices 1 ₁ and 1 _o are connected to a common signal line 2 . In this system,
Data can be transmitted from any terminal 1 to any other terminal 1 by time division multiplexing. The transmission procedure at this time is performed as follows. First, the terminal device 1 that is about to transmit starts transmission after confirming that there are no signals from other terminal devices 1 on the signal line 2. If a signal already exists on the signal line 2, the terminal device 1 starts transmitting the signal a certain period of time after the end of the transmission. If a collision occurs with another signal while transmitting a signal, the transmission is immediately stopped and restarted from the beginning after a certain period of time. By changing the waiting time of the above fixed time depending on the purpose of signal transmission,
Prioritize transmissions.

FIG. 2 shows an example of the signal format. The signal is transmitted serially, first destination address data AD specifying the address of terminal device 1 to which the signal is sent, then source address data SD consisting of the address of terminal device 1 to which the signal is sent, and then load control. Control data CD specifying the contents
to transmit. These destination address data
AD, source address data SD and control data
One packet transmission signal PS is constructed with CD.

By the way, when a certain terminal device 1 transmits a one-packet transmission signal PS once and, after the transmission is completed, a confirmation signal is transmitted from the receiving-side terminal device 1 to the transmitting-side terminal device 1, the transmitted one-packet transmission signal There is no problem in checking whether the PS was received or not. If the terminal device 1 on the receiving side does not return a confirmation signal, it will not be possible to know whether the other party has correctly received the one-packet transmission signal PS. As a method for ensuring reliability of transmission in such a case, a method of repeatedly transmitting one packet transmission signal PS having the same content multiple times can be considered. Figure 3 shows 1 with the same content.
This shows an example in which the packet transmission signal PS is transmitted repeatedly three times.

FIG. 4 shows the configuration of the terminal device 1.
Transmission interface 3 and host computer 4
It is composed of. A transmission interface 3 is connected to the signal line 2, and the function of this transmission interface 3 is to execute the above-mentioned signal transmission procedure, and transfer the received control data CD to the host computer 4 as binary data.
The host computer 4 serving as the sending side provides the destination address data AD and control data CD to the transmission interface 3, and the transmission interface 3 then performs the subsequent procedures.

As mentioned above, when one packet transmission signal PS is repeatedly transmitted a plurality of times in order to ensure transmission reliability, the following two problems arise. That is, as shown in FIG. 5, each time one packet transmission signal PS with the same content is received and one frame is completed, the process of the host computer 4 becomes a handshake process, and normal work is interrupted. Another problem is that it cannot be used for toggle operations where the state is reversed when certain data is received. That is, in the system as shown in FIG. 6, the terminal device 1A has a switch _SW1 that inverts the relay R1, which is driven from the terminal device 1C via the flip-flop _FF1 and the transistor _{Q1 .}
The terminal device 1B also has _a switch _SW2 for inverting a relay R2 driven through a flip-flop _FF2 and a transistor _Q2 . Here, a high priority is given to the transmission signal from the terminal device 1B. As shown in FIG. 7, the terminal 1C performs handshake processing in response to the one-packet transmission signal PS from the terminal 1A, returns to normal processing, and turns on relay _R1 . Therefore, one packet transmission signal from terminal 1B
A case can be considered in which PS' interrupts the repeated one-packet transmission signal PS from the terminal 1A as shown in FIG. 7b. Then, relay _R2 is turned on by the signal from terminal device 1B. Terminal 1
After the one-packet transmission signal PS' from terminal B is completed, as shown in FIG. 7a, when one packet transmission signal PS is transmitted from terminal 1A, relay _R1 is turned off from on. Therefore, a problem arises in that correct control cannot be performed.

[Object of the Invention] The present invention has been provided in view of the above-mentioned points, and a first object of the present invention is to reduce the number of handshakes on the terminal device side on the receiving side even when one packet transmission signal is repeated. The second object is to provide a time division multiplex transmission signal system that can be used even in terminals that perform toggle operations.

[Disclosure of the invention]

Hereinafter, embodiments of the specific invention will be described in detail with reference to the drawings. FIG. 8 shows an example of the format of one packet transmission signal PS, where the destination address data AD, source address data SD and control data CD are the same as before, and numerical data CN is added.
The numerical data CN is created within the transmission interface 3 of the terminal device 1 on the side that transmits the signal. Here, for explanation, the numerical value of numerical data CN is 1,
Assume that it takes three values, 2 and 3. The terminal device 1 on the transmitting side transmits all data once using the same numerical data CN value. As shown in FIG. 9, one packet transmission signal PS containing the same data is repeatedly transmitted three times. First, let the numerical data CN be CN=1,
Send the same data all three times. Next time when sending different data, send it as CN=2. 10th below
As shown in the figure, CN=3, CN=1, CN=2...
...and numerical values 1 to 3 are used in order.

Terminal 1 on the receiving side receives one packet transmission signal PS
The value of the numerical data CN is memorized each time the reception of the numeric data CN is completed, and when the next one packet transmission signal PS is received, the value of the numerical data CN of that received signal is stored as that of the previously stored numerical data CN. Compare the numbers, and only if both numbers are different, determine that the data content of the 1-packet transmission signal PS is different,
The data is transmitted to the host computer 4, and the load is controlled based on the contents of the control data CD.
Also, if the value of the numerical data CN of the received signal matches the value of the previous numerical data CN,
It is determined that the same data is being repeatedly transmitted, and the transmission interface 3 does not transmit the data to the host computer 4, as shown in FIG. Therefore, the number of handshakes between the transmission interface 3 of the terminal device 1 on the receiving side and the host computer 4 can be reduced, and the processing capacity of the host computer 4 can be increased. Also, 1 packet transmission signal
Since it does not store all PS data but only specific numerical data CN, memory can be saved.

Next, the merged invention will be explained. In the specific invention, only the numerical data CN of one packet transmission signal PS is stored, but in the combined invention, the numerical data CN and the source address data SD are stored. It has two sets of memories. In addition, the system configuration is the 6th
Same as the figure. The terminal device 1 on the receiving side stores the source address data SD and numerical data of the received one-packet transmission signal PS as shown in FIG.
The data is compared with both the memory _M1 and the memory _M2 , and only when the data is different from both, it is determined that the data is different, and the data is transmitted from the transmission interface 3 to the host computer 4, and the load is controlled based on the control data CD. do. Further, the source address data SD and numerical data CN of the received signal are stored in the memory _M1 , and the contents of the memory _M1 are transferred to the memory _M2 . The contents of memory _M2 are erased. On the other hand, the received 1
Source address data SD of packet transmission signal PS
If the numerical data CN and CN match those of both memories M ₁ and M ₂ , the contents of the memories M ₁ and M ₂ are not changed and are not transmitted from the transmission interface 3 to the host computer 4 side. I'm doing it.

Now, in FIGS. 6 and 13, the terminal device 1A
When one packet transmission signal PS is received by the terminal device 1C, handshake processing is performed and relay _R1 is turned on. 1 packet transmission signal PS is 2
When the 1-packet transmission signal PS is received from the terminal device 1B, which has a high priority after being transmitted twice, the handshake processing is performed because the contents of the data SD and CN stored in the memories M ₁ and M ₂ are different. relay _R2 is turned on. When the signal from the terminal 1B ends, the remaining 1 packet transmission signal PS is sent to the terminal 1C as shown in FIG. 13a.
received at At this time, memory M ₁ stores the contents of data SD and CN from terminal 1B, and memory M ₂ stores the previous data from terminal 1A.
The contents of SD and CN are stored, so the contents of the data SD and CN received this time are stored in the memories M ₁ and M ₂
Since the data CD matches the contents of either memory _M2 , the data CD is not transmitted to the host computer 4 side, and the relay _R1 is not inverted and remains on. In this way, toggle operation can be performed even when an interrupt is caused by a signal with a high priority. Furthermore, the memories M ₁ and M ₂ only store the source address data SD and numerical data CN of one packet transmission signal PS, and do not require a large amount of memory.

〔Effect of the invention〕

As mentioned above, in the time division multiplex transmission signal system, the specified invention adds specific numerical data to the one packet transmission signal, and if the control data contents are the same, the contents of the numerical data are set to the same value, and the control data is different from the previous one. When using data, one packet transmission signal is transmitted with the value of the numerical data different from the previous one, and each time the terminal device receiving the one packet transmission signal receives one packet transmission signal that is transmitted multiple times. The received numerical data is compared with the previously transmitted numerical data, and only if the numerical data differs, the load is controlled based on the control data of the 1-packet transmission signal. Therefore, in order to ensure the reliability of signal transmission, one packet transmission signal with the same content is transmitted multiple times, and when the received numerical data is compared with the previous numerical data, the data is determined only if it differs. By sending data, you can reduce the number of handshakes between the receiving terminal's interface and the host computer, increase the processing capacity of the host computer, and eliminate the need to store all data. , it is necessary to memorize only numerical data, which has the effect of saving memory.

In addition, in the merged invention, specific numerical data is added to one packet transmission signal, and if the content of the control data is the same, the content of the numerical data is the same value, and if control data different from the previous one is used, the numerical data is The terminal device on the receiving side has two sets of memories and stores the source address data and numerical data of the received one packet transmission signal as the contents of the memory. The load control is performed based on the control data only when the contents of both memories are different, and the data is erased from the older one of the two memories and the received data is treated as new data. Since the content is shifted to the memory and stored sequentially, it is possible to reduce the number of handshake processes between the interface and the host computer, similar to the specific invention, and the content stored in both memories and the received data can be reduced. Only when the signal source address data and numerical data are different from the memory contents,
By outputting control data, it is possible to determine the terminal device transmitting the signal even in the event of an interrupt due to a high priority signal, enabling toggle operation, and the memory also stores source address data and numerical data. This has the effect of not requiring a large amount of memory because it only memorizes the following information.

[Brief explanation of drawings]

Figure 1 is a model diagram of time division multiplex transmission, Figure 2 is the format of the same one packet transmission signal as above, and Figure 3 is a model diagram of time division multiplex transmission.
The figure shows the transmission state of the same as the above, FIG.
FIG. 6 is a model diagram of another conventional example, FIG. 7 is an explanatory diagram of the same operation as above, FIG. 8 is a format of a 1-packet transmission signal in an embodiment of the present invention, and FIG. 9 is a diagram showing the transmission state of same as above. , FIG. 10 is a diagram showing the transmission state of the above, FIG. 11 is an explanatory diagram of the operation of the same, FIG. 12 is an explanatory diagram of the operation in the combined invention, and FIG. 13 is an explanatory diagram of the operation of the same. 1 is a terminal device, 2 is a signal line, 3 is a transmission interface, 4 is a host computer, PS is a 1-packet transmission signal, AD is destination address data, SD
is source address data, CN is numerical data, CD
indicates control data, and M ₁ and M ₂ indicate memory.

Claims (1)

[Claims] 1. A large number of terminal devices are connected to a signal line, and one packet transmission signal consisting of destination address data of the destination terminal device, source address data of the transmission source, and control data for load control is transmitted. Multiplex transmission is performed from any terminal device to any other terminal device via the signal line multiple times in a time-division manner, and the terminal device having an address corresponding to the destination address data is transmitted by the host computer via the interface. In a time division multiplex transmission signal system in which load control is performed based on control data,
Adding specific numerical data to the packet transmission signal,
If the content of the control data is the same, the content of the numerical data is set to the same value, and if control data different from the previous one is used, the numerical data is set to a different value from the previous time, and one packet transmission signal is transmitted. The terminal device side that receives the numeric data stores the numerical data each time it receives one packet transmission signal that is transmitted multiple times, compares the received numeric data with the previously transmitted numeric data, and calculates the numeric data. A time division multiplex transmission signal system characterized in that load control is performed based on control data of a single packet transmission signal only when the values of . 2. A large number of terminal devices are connected to a signal line, and a single packet transmission signal consisting of destination address data of the destination terminal device, source address data of the transmission source, and control data for load control is transmitted from any terminal device to another. multiplex transmission to any terminal device via the signal line multiple times in a time-division manner, and in the terminal device having an address corresponding to the destination address data, the data is transmitted based on the control data transmitted by the host computer via the interface. In a time division multiplex transmission signal system that performs load control,
Adding specific numerical data to the packet transmission signal,
If the content of the control data is the same, the content of the numerical data is set to the same value, and if control data different from the previous one is used, the content of the numerical data is set to a different value from the previous time, and one packet transmission signal is transmitted, and the receiving terminal The device has two sets of memories, and compares the source address data and numerical data of the received one-packet transmission signal with the contents of the memory, and only when the contents of both memories are different, based on the control data. A time division multiplex transmission signal characterized in that load control is performed, and the data in the older one of the two sets of memories is erased, and the received data is shifted as new data to both memories and stored sequentially. method.