JPS5873260A - Data transmission system - Google Patents

Abstract

PURPOSE:To make the transmission control uniform and to simplify the control, by providing a data storage section for both a transmission processor and each terminal device respectively, and serially ternsmitting controlled data and collected data through bit-serial way. CONSTITUTION:A plurality of terminal devices 6 are connected in series with a transmission controller 2 connected to a central processing unit 1. The terminal devices 6 are provided with the 1st data storage section storing the control data from the unit 1 and the colledcted data from a device, etc. 4 connected to the terminal devices 6. The transmission controller 2 is provided with the 2nd data storage section storing all the contents of the 1st data storage section. The transmission and reception of data between the device 2 and the terminal devices 6 are performed within a transmission time zone splitting the unit time into the transmission time zone and a request processing time zone. In this transmission time zone, each controlled data in the 2nd data storage section is transmitted in bit-serial to the terminal devices 6 and the collected data in the 1st data storage section is transmitted to the device 2 in bit-serial.

Description

[Detailed description of the invention] The present invention relates to a data transmission system.

Conventionally, there is a system that centrally collects data from devices, sensors, detectors, etc. that are scattered in a space, and centrally controls all devices by sending control data to each device. . In the data transmission method for this system, the central processing unit fit (QvU) in the central processing room and 111 terminal devices to which a large number of devices are connected are directly connected by individual transmission lines. The number of transmission lines used corresponds to the number of connection lines between the terminal device and each device, etc.
A huge amount! tric, but since it required huge material and labor costs, an attempt was made to improve it, and by using a byte serial transmission method as the transmission method, it was possible to improve
In the case of the i8 Pinto, it has reached the point where it can be connected to one terminal device using at least nine transmission lines. However, even with this, if, for example, eight terminals are required.

It is necessary to install 72 transmission lines! ! The cost of materials, materials, etc. is also huge. I use the octopus method to improve CPU I
The number of transmission control devices equal to the number of IIIK terminals is required, and a different transmission control device is also required on each terminal side, making the node WJ expensive.

Furthermore, according to this conventional method, when a request is made by the central processing unit, it first goes to each terminal to collect data and send control data. 1wl1
Since it was time-consuming and the amount of data requested was irregular and slow, the processing time varied each time. In addition, in order to deal with requests that occur irregularly, it is necessary to manage the machine number of request data. It takes time to correspond with the terminal number, that is, the physical machine number, and if requests are made all at once, a queue is created. Since all of these processes are performed by the central processing unit, there are many disadvantages such as an enormous burden on the FC.

The present invention eliminates the drawbacks of these conventional systems (i), the number of transmission lines is extremely small, the transmission control is uniform and simplified, and the hardware configuration of terminals etc. is also uniform,
Economical and reliable: Provides a data transmission method that is easy to use, has extremely fast response speeds that meet the demands of central processing units, and can reduce the burden on central processing units. It is something to do.

The details of the invention will be described below with reference to the drawings.

As shown in Figure 1, the configuration of the present invention (also characterized by D-Shark) is that the central processing unit (CPU) 1 is a transmission control device in which the latest collected data and control data are always prepared. 2 are connected by a connecting line 6.

For this purpose, requests from the central processing unit 1 can be answered. Note 2 includes a transmission control device fli2 and a large number of devices etc.
are connected by the connection line 5 (BS・1
, L8.2, t, 5-5)6-... means that they are connected in series through a 1-bit transmission line 7, and bit serial transmission is performed. This not only reduces material and labor costs, but also unifies and simplifies transmission control. Of course, the number of terminal devices 6 . . . #'i is not limited to three, and multiple terminals may be connected in series in the same manner.

As shown in the second illustration, the transmission control device 2 has a data storage unit (nypn) 8tX which is a second data storage unit,
The processing unit that is connected to the processing unit (microprocessor) 9? A request control interface section 10 is connected to the KFi central processing unit (CPU) 1, and a transmission control interface section 11 is connected to the terminal device 6...! ! Next, go to.

Each terminal device 6...t[3 As shown in the figure, it is equipped with a data storage unit (LPDB) 12 which is a first data storage unit, and is connected to a processing unit (micro 10-piece) 15. . The processing section 13 is connected to a transmission control interface section 14 which is connected to the transmission control interface section 11, and is also connected to a field interface section 15 for the equipment 4.

Transmission control 14I built-in 8-pin data section (MFD)
B) 8 (hereinafter referred to as MFDB) and a data storage unit (t, b"DB) 12 (hereinafter referred to as Lyn) built in each terminal device 6...
B, g) are arranged as shown in Figure 4. In other words, M F D B rc first connects each terminal device (LS・1 to L
El-' 5) Control data to 6... 8 parts OUT-1, OUT-2, OUT-3 are provided in the next row, and then the confectionery data of each terminal device 6... Storage units IN-1, IN-2, and xn-s are sequentially provided. In each storage unit, storage locations are set corresponding to the multiple devices 6, etc. connected to each terminal, and control data or collection of each device number is set in each storage location. - data is stored. In addition, each terminal has a built-in T, IFDBIfi
- As an example, LIFDBt of terminal L8'.1 is shown, but all have the same configuration. In other words, the control data st*s corresponding to OUT・1.0−′UT・2゛, OUT, 5 of MIFDB is Out・1 or OUT・
2 Also, tljOUT・6 is installed and 1MIP
DB IN・11. Collected data storage section IN・1 corresponding to XM-2, IN・5, or IN・2 or XM−
5 is a provision. *In other words, the MPDB is inscribed to include all the T, + IF D B- of all terminals. Therefore, the control data from the central control unit (CPU) 1 is written to a predetermined storage location in any of the control data storage units Qti-1 to OUT-5, and the collected data storage units IN-1 to XM-5 of the collected data tliMPDB are written. a predetermined storage location of −
The data is then read out and supplied to the central control unit 1. Sara K
G of the control data storage part of the MFDB is transmitted to each terminal device via the transmission line 7 and is transmitted to each terminal device 1. At the same time, data d in the collected data storage section of the LCE DB of each terminal is transmitted through the transmission line 7 and stored in the collected data storage section of the MPDB. and each 'LFDBK
The corresponding device T4 based on the IP desired control data
is controlled, and data input from the device via connection 115 is written to a predetermined storage location in the collected data storage section of each T and +FDB.

Referring to FIG. 5, the timing of data transmission and billing processing according to the present invention will be explained. -1 shows an example in which the unit time is 1 second.

The first 500 milliseconds of one second are divided into a transmission time zone Ta, and the last 500 milliseconds of one second are divided into a second and non-processing time zone Tb. 1゛That is, the transmission time period TaK is M
All of the control data stored in the PDB is sent to the transmission line 7 sequentially from the control data ktm section OUT.1 to OUT.5.
Pinto serial transmission is carried out. Each terminal (t, S
・1 to 'L8.

Then, each collected data pipe sequentially outputs the collected data from its own collected data storage unit to the transmission line 7 and transmits the hint serially, and this is stored in the pivot data storage units IN.1 to IM.5 of the MPDB. In this way, during the transmission time period Ta, the transmission route 7
OUT・1.0IJT・2,QU as in the original
T・6, IN・1, IN・2. Data is transmitted in a transmission data structure consisting of six rooms in the IN-system.

Next, IP request processing time zone Tt) JCa, central processing unit (
When the control data from the MIFDBK (CPU) 1 is acquired, the requested collected data is supplied to the central processing unit 1. The data supplied at this time is fc*new data collected from each terminal 6 . . . 5oon) seconds ago, and is immediately supplied to the central processing unit 4IIt1. Also, the control data received at this time is transmitted to each terminal device 6 at the next transmission time *TaKt: after 500 milliseconds.
is transmitted to L F D B of . By the way, 1 for each terminal
00 devices are connected, 10 terminal devices are connected in series to the transmission line 7, and for example, if each device has 1 point of input information, the transmission time period TaGC#ioUte・1
1000 points of control data will be transmitted in 10 frames of ~OUT -10, and 1000 points of collected data will be transmitted in 10 frames of N-1 to 1N-10, but as mentioned above, the unit time [- Transmission time period T assuming 1 second
Not only is it possible to sufficiently transmit the above data in 500 jυ seconds of a, but there is still plenty of time. In addition, controlling more than 1,000 devices requires even more data transmission *J
For unit 1C, it is also possible to set the unit time to 1.5 seconds.
Alternatively, it is also possible to change the ratio between the transmission time period Ta and the request processing time period Tb as appropriate.

Next, referring to FIG. 7, an example of the operation of the present invention will be described in which the control data output from the central processing unit is used to control equipment, etc. until it is recognized as collected data.

The control data for the devices 4 currently connected from the central processing unit 11 to the fake terminals 6... is inputted by the customer ■■ via the requesting side repair interface section 10 during the request processing time period Tb-1, and processed. OUT・1, O of MFD-B by section 9.
Assume that it is written to a predetermined storage location 11 of the UT 2.0LiT-5. This control data is transmitted in the next transmission time period Ta-2.
The data is then output as transmission data from the transmission control interface s11.

LS/IFi transmission control interface section 14iC
The control data (2) of the UT-1 is taken in, and the processing unit 13 sc; ti stores it in a predetermined storage location of the FDB. QU
The market side 1 data of frames T.2 and OUT.5 is allowed. During this time, field isometric face 15
Sampling is being performed in which control data is output to the equipment 11!4 using f nib r, and collected data is input. LS-2, T, 8 and 3 are also OLT respectively.
The control data (■, ■) of T.2 and OUT.5 are sequentially taken in and stored in each T and IFDB, and when frames other than their own, Sun1 link is performed with equipment, etc. 4.

From the transmission control interface 7x chair section 14 of LS-1,
When the UT-5 frame passes and becomes the IN-1 frame, the collected data is output from the LliPDB of LS-1, and LS-2 and LS-5 are also sequentially transferred to IN-2.
, IN・b.

Output each collected data to the frame. Requested processing time from the end of outputting each individual's collected data W) T s
Sampling is performed with each device 4 between 22 and up to 7 frames of each OUT in the next transmission time zone a-S. During this time, the above control data■■
Each device, etc. is controlled by
Become accustomed to DB.

Then, in the same manner as in the transmission time period T a -5VC, control data is input from each frame of OUT・1 to QUT・5 to the LPDB, and then L1? 'The sand collection data stored in the DB is output to each of the 7 frames IN・1 to IN・5. At this time, the VC receives the collected data ΔuU that confirms the control data (), and the M
Memorialized in PDB.

Then, in the next request processing time period Tb-3, this collected data ■'■'σ is supplied from the request VC of the central processing unit 1 to the central processing unit *rc, and the previous control data is output and The time it takes to get paid is 1, which means the processing time is up to 5.
Within seconds. Also, if you are just looking for collected data, the latest data will be requested, so the latest data will be requested. Processing w: 1 is maximum 1
Fills within seconds.

In this way, according to the present invention, even if there are many terminals connected to many devices, meters, detectors, etc., it is fine to connect each terminal in series, so the transmission line The number of terminals is extremely small, and it is easy to add more terminals. Both the transmission processing device and each terminal device are each equipped with a data storage section, and all the control data and collected data in the storage section are transmitted serially in a smooth and predetermined transmission time period. Transmission control is unified and simplified, and the latest Fi control data and collected data are always stored in the storage section. Because of this, the hardware configuration of terminals and the like can be made uniform, making it more economical and highly reliable. This also makes the processing speed of the central processing unit extremely rapid.

``Furthermore, since the central processing unit, which conventionally had to deal with every time an e-request was made, is no longer necessary, a reduction of 9 burdens can be achieved.

[Brief explanation of the drawing]

Fig. 1 shows an embodiment of the present invention, Fig. 1 is a block diagram showing the overall configuration, Fig. 2 is a block diagram showing the internal structure of the transmission control device, and Fig.
A block diagram showing the internal configuration of the OU terminal, No. 4 is a block diagram showing the internal structure of the transmission control device and the data storage section built into the terminal, and Fig. 5 shows the timing of data transmission and request processing. Explanatory diagram showing, No. 6
The figure is an explanatory diagram of the transmission data structure, and the seventh figure is an explanatory diagram showing the data flow. 1...Medium heat processing unit @(CPU')2...
・Transmission control i location 6...Terminal device (r, s・1, I, S・2, I,
S-3) 8...Film 2 field data storage unit (MP
DB) 9...First data storage unit (LFDB)
Ta...Transmission time period Tb...Request processing time period QUT ・1.0UT-2, 0UT-5, , Control arter distribution section, IN・1. IN・2. lN-3...Collected data dpi connection section 3...Connection line, 7...
transmission path. Applicant Seiko Co., Ltd. Agent Patent Attorney Mogami

Claims (1)

[Claims] A plurality of terminals are connected in series to a transmission control device connected to a central processing unit. A first data storage section for storing collected data from nine devices, etc. is provided, and a second data storage section capable of storing each of all of the data storage sections of each #A1 is provided in the transmission control device. It has a built-in storage unit, and data transmission and reception between the transmission control device and each of the terminal devices is performed during the transmission time period in which the unit time is divided into at least a transmission time period and a request processing time period. Things To
During the above-mentioned transmission time period, each control data in the second data storage section is transmitted to each terminal in bit serial format, and the collected data in the first data storage section is transmitted in bit serial format to the transmission control device. During the request processing time period, the control data from the central processing unit is manually input to the transmission control device, and the collected data is output from the transmission control device. . A data transmission method characterized by: