JPH055419B2 - - Google Patents

Description

[Detailed description of the invention] [Technical field to which the invention pertains] The present invention relates to a data transmission system equipped with a communication test function between a host computer and a center device connected via a serial transmission path such as an interface such as RS-232C. It is something.

[Prior art and its problems]

The host computer and the center device of the data transmission system are connected through a standard interface such as RS-232C or GP-IB, and the center device transmits terminal operation signals received from the host computer to the terminal, and terminal input signals received from the terminal. It is generally used to send signals to a host computer. However, since these systems are made up of a host computer, a center device, a group of terminals, and other devices that have different characteristics and are functionally complex, when they first start operating, or When an abnormality occurs in operation, it is extremely difficult to determine where the abnormality is. Additionally, general-purpose signal transmission systems need to be manufactured at low cost and have the ability to easily find the cause of malfunctions and check the operating status. Due to its large size and high cost, it has the disadvantage of not having sufficient testing capabilities.

[Purpose of the invention]

This invention not only provides a test function that simply receives test data sent from a host computer or center device and sends the data directly as is, but also allows the center device to freely send test data to a terminal. It has a function to temporarily (temporarily) create data and send this terminal data, including terminal failure information, to the host computer.
Alternatively, in addition to testing whether the processing program on the host computer side can operate correctly when correctly received, terminal operation signals sent from the host computer can be displayed on the center device.
It is an object of the present invention to provide a data transmission system that can easily test whether transmission data from a host computer and data transmission between a center device and a terminal are being performed correctly.

[Key points of the invention]

In order to check the operating status of a transmission system, the present invention provides test data that is used by a center device to make a host computer function in place of input signal data or status (failure) data that is independently given to a terminal in place of a terminal. The function that creates data and transmits it to the host computer, and the function that displays terminal operation signals received from the host computer, check whether the host computer is operating correctly or whether the data is being transmitted correctly between the center device and the terminal. The aim is to provide a data transmission system that has a test function that can check the

[Embodiments of the invention]

FIG. 1 shows a schematic configuration diagram of a data transmission system according to the present invention.

In the figure, 1 is the host computer, 2 is the transmission path, and 3
4 is a center device, 4 is a signal path, 5-1 to 5-n are terminal devices, 6 is a digital signal input source, and 7 is an analog signal input source. A center device 3 that controls transmission is coupled to a plurality of terminal devices 5-1 to 5-n via a signal path 4. As for the method of coupling the signal paths, either the so-called imozuru method (multi-drop method) or the method of coupling in a loop shape can be applied. The center device 3 controls communication with terminals, specifies the address or address group of the terminal device with which it communicates, and the terminal device corresponding to this address or address group participates in data transmission and transmits data input to the terminal device. The digital signal input source 6 and analog signal input source 7 are connected to the center device 3.
Alternatively, it has a function of transmitting data to a partner terminal device, and data is generally transmitted cyclically under the initiative of the center device 3 in many cases. In addition, the center device 3 transmits the terminal operation signal received from the host computer 1 to the terminal device along with the address of the output destination terminal device, and the terminal device transmits the data received from the center device or the data received from the partner terminal device to the outside. It has a function to repeatedly output.

In addition, the terminal device has the function of setting its own address, reads the data sent to signal path 4, and has the function of transmitting data at a predetermined timing and format upon receiving the address assigned to itself. ing.

Further, although only representative signals are shown in FIG. 1, a large number of signals such as 16 bits and 32 bits can be connected to the terminal device.

The center device 3 connects to the host computer 1 via the transmission path 2.
is combined with The data received by the center device 3 from the terminal device is sent from the center device 3 spontaneously or
Alternatively, the data is sent to the host computer 1 in response to an instruction from the host computer 1, and the host computer monitors the terminal data and uses it as control data to control the entire system incorporating the transmission system.

FIG. 2 shows a display 8, an LED lamp 9, and operation switches 10 provided in the center device 3 and used for testing. General center device 3
As a function, you can set the terminal address in order to display the received data of the terminal device.
Displaying data on the LED lamp 9 has already been done as a general device, so the explanation will be omitted here. In FIG. 2, only the test function portions related to the transmission interface between the center device 3 and the host computer 1 are shown.

With the functional elements shown in FIG.
The microcomputer system reads the functions such as communication with the host computer 1 or communication with the terminal device, as well as the operation status of the numeric keypad (not shown) and each operation switch shown, and decodes the user's request. As a result, a code corresponding to the terminal device address, failure state, or type of data to be transmitted is displayed on the display 8. The functions of these center devices 3 are
Since this can be realized in various ways using a microcomputer system, the hardware and software configurations will not be particularly explained here.

In FIG. 2, the functions according to the present invention will be explained. In place of the terminal data in the host computer 1, data is set by selecting the operating switches 1 to 32 of the terminal data and the operating switches 10 in the center device 3. This data set state is displayed on the LED lamp 9 when the Di test switch in the operation switch 10 is turned ON. A terminal address is set by operating the address Sw in the operation switch 10 and a numeric keypad (not shown), and is displayed on the display 8. In this state, the data to be sent to the host computer 1 is almost ready. If it is desired to transmit failure data or the like in a similar manner, the same setting can be made using the switches _F1 to _F8 of the second operation switch 10. In this state, by operating the test output switch in the operation switch 10, the host computer waits for a transmission invitation, and when the transmission to the host computer is completed, the host computer Di test starts.
LED lamp 9 turns off. Various methods can be considered for the transmission procedure between the center device 3 and the host computer 1, one example of which is shown in FIG. In FIG. 3, a indicates the data format sent from the center device 3 to the host computer 1, and the start signal ENQ,
Following the command indicating the data length and type of data to be transmitted, the address, data, and status (failure) data of the terminal device become one set.If there are several sets of data, arrange the data in the same order, and finally It is sent with BCC data for error detection. Details of these transmission procedures will be omitted.

As mentioned above, the data set has a function for only one address, so in the case of the data format shown in Figure 3a, the data length, BCC, etc. are set so that the data length is one address. etc. are added by the transmission control function built into the microcomputer.

FIG. 4 shows these transmission timings. When the center device 3 is set to the test state, there is a possibility that data unrelated to the terminal device will be sent to the host computer 1, so the Di test Sw is turned ON as shown in FIG. Then, as shown in 2, the host computer is notified that it is in a test state. In this test state, the center device 3 creates terminal data without permission, creates and sends status data, or forcibly manipulates the terminal output, so this influence can lead to bad results. It is necessary to activate a function that protects the host computer 1 to prevent this from occurring. For this purpose, the configuration is such that after turning on the test output Sw as shown in 3, data is transmitted to the host computer as shown in (4). By doing so, it becomes possible to transmit terminal data and status data to the host computer 1 regardless of the status of the terminal. In this way, even in the test state, the same data as normal transmission data is sent, so it can be useful for verifying and checking the operation of the host computer.

Further, when an operation output is transmitted from the upper position computer to the terminal via the center device, it is transmitted in a data format as shown in FIG. 3b. In an actual transmission system, when an abnormality is discovered in the output data of the terminal device, is there an abnormality in the transmission data from the host computer 1, resulting in an abnormality in the output data of the terminal device? Did an abnormality occur during transmission between 3 and the terminal device?
It is extremely important for actual system operation to be able to easily determine whether there is an abnormality in the terminal itself. For this reason, if the data transmitted from the host computer 1 to the center device 3, which is particularly difficult to judge, can be displayed on the center device, the practical effect would be very useful.

The transmission format from the host computer 1 to the center device is shown in FIG. 3b, but since the display function of the center device shown in FIG. 2 is for one terminal address, the transmission format in FIG. By displaying the last received address and data from among the data for a plurality of terminal addresses on the display 8 and LED lamp 9, it is possible to visually check what kind of data has been transmitted from the host computer 1. Note that this function does not particularly change the terminal data, so it is necessary to display the output data to the terminal device in Figure 2.
Under the condition that Do data display Sw is ON, operation can always be displayed.

Also, the last data received is displayed as the data to be displayed, but if a series of blocks communicate, the first data may be displayed. This is not a hard and fast decision, and can be defined by the software of the microcomputer of the center device.

〔Effect of the invention〕

According to this invention, the center device has a function of transmitting data (digital or analog, but a predetermined bit pattern) and test data including failure information to the host computer for each terminal address, regardless of the data of the terminal. In addition, by having the function of displaying communication data as terminal operation signals sent from the host computer, it has a test function regarding transmission control between the host computer and the center device.
Abnormal conditions can be easily discovered, and functions of the host computer can be tested from the center equipment side.

[Brief explanation of drawings]

FIG. 1 is a schematic configuration diagram of a data transmission system according to the present invention, FIG. 2 is a schematic configuration diagram of a display section of a center device, FIG. 3 is a diagram showing an example of a data transmission format between a host computer and a center device, and FIG. The figure is an explanatory diagram showing the timing during test operation. 1... Host computer, 2... Transmission line, 3... Center device, 4... Signal path, 5-1 to 5-n... Terminal device, 6... Digital signal input source, 7... Analog signal input Source, 8... Display, 9... LED lamp, 10... Switch.

Claims (1)

[Claims] 1. In a general-purpose data transmission system consisting of a center device that controls transmission, a plurality of terminals connected to the center device via a data transmission path, and a host computer connected to the center device via a data transmission path, the center device The test switch switches data communication between the center device and the host computer to a test state, and the host computer functions in place of terminal data transmitted from the center device to the host computer.
At least means for setting test data consisting of normal terminal data in the same format, means for setting the address of the terminal device, and means for displaying communication data as a terminal operation signal from the host computer are provided, and the test means for transmitting test data set in place of terminal data to the host computer on the condition that data communication between the center device and the host computer is switched to a test state by operation of a switch; and a means for transmitting test data from the center device to the host computer. 1. A data transmission system comprising: means for displaying test data.