JPH023875A - Data transmission equipment - Google Patents

Abstract

PURPOSE:To enable an equipment to deal with the increase of the number of the items of data transmission without enlarging a transmission and a reception data areas by transferring transmission data to a transmission data storage area determined beforehand according to a numerical value or a symbol received simultaneously with a transmission signal from a transmission equipment. CONSTITUTION:An operator 5 changes the data of B by a CRT 6 or a keyboard 7. As for the changed data, the data of a transmission data item B and the numerical value '2' meaning the second are transmitted beforehand to the transmission data area 3 by a transmission data item program 8 in a computer 1, and only the data of B and the numerical value '2' are transmitted from the transmission data area 3 to a controller 2. The reception data area 4 of the controller 2 can be the area of the same size as the transmission data area 3, and it receives the data of B and the numerical value 2, and reads the numerical value 2 by a data transfer program, and transfers the data of B to a second register in a transmission data storage register group 10. Thus, the equipment can deal with the item of the data, and becomes the one whose data area for transmission and reception need not be increased.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Field of Industrial Application) The present invention relates to a data transmission device using a digital computer and a digital control device.

(Prior Art) Recent plant control systems employ CRT operations in which operators use light pens or keyboards to perform operations, and digital computers (hereinafter referred to as computers) and data received from the computers. Digital control equipment for controlling plants (hereinafter referred to as
It consists of a control device (called a control device).

FIG. 3 is a diagram showing conventional data transmission between a computer and a control device.

In FIG. 3, data is transmitted between the computer 1 and the control device 2. The transmission data area 3 of the computer 1 was prepared for the number of transmission data items, and the reception data area 4 of the control device 2 was also the same area as the transmission data area 3.

Here, when the operator 5 changes the value of data B, for example, by CRT operation using the CRT 6 and keyboard 7, the changed new data is transmitted from the computer 1 to the control device 2, and the received data area 4 of the control device 2 is The value of the register storing the B data inside is replaced with the new data.

Once the data is received, the register storing each data in the reception data area 4 of the control device 2 retains that data, and the previous data is not updated until the next data arrives. The transmission capacity from the computer 1 to the control device 2, that is, the capacity of the transmission data area 3, was proportional to the number of data items required for transmission.

(Problems to be Solved by the Invention) As the scale of plants increases, the control system will fully adopt CRT operation and perform distributed control, and as shown in Figure 4, one computer 1 will control multiple units. Device 2 will be connected by data transmission.

In this way, as the number of control devices 2 increases and the number of transmission data transmitted from the computer 1 to the control device 2 increases, the area of the transmission data area 3 of the conventional computer 1 must be made very large. However, since the transmission data area 3 is limited, there is a problem that the transmission capacity cannot be increased, and a large-scale control system cannot be constructed.

Furthermore, even if it were possible to construct such a system, enlarging the transmission data area of the computer 1 would place a large burden on the computer 1 and adversely affect its performance.

An object of the present invention is to provide a data transmission device that can cope with an increase in the number of data transmission items without increasing the transmission and reception data areas.

[Structure of the invention]

(Means for Solving the Problems) In CRT operation, an operator normally changes certain data by operating a keyboard, light pen, or the like. In this case, changing data means changing one piece of data with one operation. On the other hand, since the transmission time from the computer to each control device is much faster than the operator's operation, in the case of CRT operation, one piece of data is transmitted to the control device each time the operator performs an operation. Even if there is a time delay when changing data is transmitted one by one compared to when changing data is transmitted all at once, this time delay is not a problem because humans input data one by one by CRT operation.

Here, as shown in FIG. 2, numbers are assigned in advance to correspond to each item of transmission data, and a group of registers for storing each transmission data in the order of the numbers is also prepared on the control device side.

When an operator changes certain data by CRT operation, the computer transmits only two pieces of data to the control device: the data changed by the operator and a number determined corresponding to the item of the transmitted data. Next, in the control device, the upper v! sent from the computer! After receiving the two data, it reads the number attached to the data and stores the new received data changed by the operator in the register corresponding to the above number among the transmission data storage registers prepared in the control device. do.

(Function) The transmission data transmitted from the computer to the control device only requires the data changed by the operator and a number indicating which number of transmission data items determined in advance is the data, so the number of transmission data items can be reduced. Even if the number increases, the number corresponding to the data item will only increase, and the data area for transmission and reception will not increase, and on the contrary, it can be made smaller than before.

(Example) FIG. 1 is a diagram showing an embodiment of the present invention.

In Figure 1, inside the computer 1 is a transmission data area 3.
There is also a transmission data item number program 8 which registers a predetermined number for each transmission data item. Inside the control device 2 there is a receiving data area 4 and a computer 1.
There is a data transfer programmer TS 9 for storing received data from a predetermined register in a predetermined register, and a group of transmission data storage registers 10 for arranging each transmission data item in a predetermined order. FIG. 2 is a table showing predetermined transmission data items and their corresponding numbers. FIG. 2 shows that the number of transmission data items is from A to N, and the numbers are assigned from 1 to 14 in one-to-one correspondence.

Here, a case will be explained in which the operator 5 changes the data of data item B among the transmission data items. First, the operator 5 changes the data of B using the CRT 6 or keyboard.

The changed data has been previously associated with transmission data item B by the transmission data item program 8 in the computer 1 as shown in FIG. The numerical value "2" is sent to the transmission data area 3.

From the transmission data area 3 of the computer 1, only the data B and the numerical value 2 are transmitted to the control device 2.

The reception data area 4 of the control device 2 is also an area of the same size as the transmission data area 3, and receives the data B and the numerical value 2. The data received in the reception data area 4 is read as a numerical value 2 by the data transfer program, and the data B is transferred to the second register in the transmission data storage register group 10.

In addition to the above embodiments, symbols such as A, B, and C may be used in addition to numerical values to correspond to transmission data items.

Furthermore, if the sum of the transmitted data and the numerical value of the number corresponding to the data is within 16 bits, only one word of data is transmitted from the computer to the control device, which can further reduce the amount of data to be transmitted.

〔Effect of the invention〕

As explained above, according to the present invention, the transmission capacity from the computer 1 to the control device 2 is not affected by the number of transmitted data items, and is fully applicable to a control system with a large number of transmitted data items.

Furthermore, when the number of transmitted data items increases, if the present invention is not used, the transmission area for sending data from the computer 1 to the control device 2 is equal to the number of transmitted data items, whereas according to the present invention, only the changed data and its transmitted data item number are required. Therefore, the transmission amount can be extremely reduced, which reduces the burden on the computer 1 and improves the performance of the computer 1.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the present invention, FIG. 2 is a diagram showing transmitted data items and their corresponding numbers, FIG. 3 is a diagram showing conventional data transmission between a computer and a control device, and FIG. The figure is 1
FIG. 3 is a diagram showing connections between one computer and a plurality of control devices. 1...Computer 3...Transmission data area 5...Operator 7...Keyboard 2...Control device 4...Reception data area 6...CRT Agent Patent attorney Noriyuki Chika Yudo No. Kenji Komaru figure

Claims (1)

[Claims] A transmitting device that simultaneously transmits transmission data and a predetermined numerical value or symbol corresponding to the transmitted data, and a transmitting device that receives a transmission signal from this transmitting device and transmits a predetermined numerical value or symbol that is received at the same time as the transmitted data. A data transmission device comprising a receiving device that transfers the transmission data to a transmission data storage area.