JP2549444B2 - Data transfer device - Google Patents

Description

DETAILED DESCRIPTION [Outline] A data transfer for transferring a transmission request signal and data sent from a terminal connected between a host computer and a terminal and requested to send data from the host computer to the host computer. Regarding equipment, the purpose is not to destroy the transmission data of a terminal that does not have a transmission path failure even if the terminal does not have the RS control function. If the terminal has a failure detection unit that passes the signal and changes it to a predetermined logical value when a failure occurs with the terminal, and whether the terminal has transmission data and a transmission request signal and a transmission request control function of the failure detection unit. A transmission data data mask section is provided for each terminal in response to the function setting signal shown, and the terminal other than the terminal whose data is masked by the data mask section. In a data OR circuit for passing the transmission data of the above to the host computer, the fault detection unit receives the alarm signal generated at the time of the fault and the function setting signal and outputs the predetermined logical value from the fault detection unit. A control unit for inverting the changed transmission data and transmission request signal to the other logical value data and sending the data to the data protection unit is provided.

[Industrial applications]

The present invention relates to a data transfer device, and more particularly to a data transfer device in which a terminal requested to send data from a host computer sends the send data together with a send request signal to the host computer.

With the recent demand for faster computer systems,
It is required to connect a plurality of terminals to one host computer for communication.

Therefore, there is a need for a point-multipoint data transfer device that connects a host computer and a plurality of terminals.

[Conventional technology]

FIG. 4 shows a plurality of terminals (2 in this example) for which data transmission is requested by the reception data RD from the host computer HC.
One of the two terminals TE-A and TE-B) corresponds to the conventional structure of the data transfer device 10 for sending the transmission data SD together with the transmission request signal RS to the host computer HC. In the example, it is assumed that the terminal TE-A has been requested for transmission (in use).

This data transfer device 10 normally passes the transmission data SD and the transmission request signal RS from the terminal TE-A or TE-B as it is, and when a failure occurs with the terminal, a predetermined logical value, that is, a logical value. Failure detection part (DN
R) 1 and the transmission data S output from this failure detection unit 1.
D and a transmission request signal RS and a function setting signal (RS) indicating whether the terminal has a transmission request control function (“1”) or not (“0”)
And a data mask section 2 which outputs transmission data SD (from the terminal TE-A in this example) in response to the control presence / absence signal).
It is provided for TE-A and TE-B.

Further, a data OR circuit 3 is provided to pass the transmission data SD of the terminals other than the terminals whose transmission data is masked by the data masking section 2 to the host computer HC.

To explain this more specifically, the host computer
When the terminal TE-A is requested to send data by the received data RD from HC, the terminal TE-A outputs the send data SD and the send request signal RS becomes "1". . At this time, the other terminal TE-B is an unused terminal and the transmission request signal RS is "0".

Now, assuming that no failure has occurred between the terminal TE and the data transfer device 10, the failure detection unit 1 allows the transmission data SD and the transmission request signal RS from both terminals to pass through as they are and the corresponding data. Send to the mask unit 2.

The data mask unit 2 includes an AND gate 21 for an inverted signal of the transmission request signal RS and an RS control presence / absence signal, and the AND gate 21.
Of the transmission request signal is “0” and the RS control presence / absence signal is “1” in the AND gate 21 of the data mask unit 2 of the terminal TE-B. Therefore, the output becomes "1" as shown in the figure, and the OR gate 22 outputs the signal "1" for disabling the transmission data SD of the terminal TE-B regardless of the transmission data SD.

On the other hand, since the transmission request signal of the terminal TE-A in use is "1", the output of the AND gate 21 becomes "0" regardless of the RS control presence / absence signal, and therefore the transmission data SD is the OR gate 22 as it is. It passes through and is sent to the data OR circuit 3 as a negative logic OR gate.

At this time, since the other input of the data OR circuit 3 is the transmission data disable "1" as described above, the terminal TE-A
The transmission data SD from will be sent to the host computer HC.

The RS control presence / absence signal is set by the console or the like in advance by knowing whether or not the opposite terminal in the data transfer device 10 has the RS function.

Next, as shown in FIG. 5, for example, when a failure F occurs between the terminal TE-B and the data transfer device 10, the failure detection unit 1 changes the transmission data SD to “0”, Since the request signal RS is originally "0", the outputs of the AND gate 21 and the OR gate 22 are the same as in the case of FIG.

On the contrary, when a failure occurs on the side of the terminal TE-A, the transmission data SD becomes “0”. Therefore, unless the host computer HC instructs, the transmission data of the terminals TE-A and TE-B is transmitted. SD will not be sent to the host computer HC.

In this way, a point-to-multipoint data OR system between one host computer and a plurality of terminals is realized.

[Problems to be Solved by the Invention]

In the case of such a conventional example, as shown in FIG. 6, for example, when the terminal TE-B has no RS control function,
The transmission request signal RS from the terminal side constantly becomes "1", but AN
Since the setting signal of the D gate 21 is "0", the output of the AND gate 21 is always "0".

At this time, if a failure occurs, the transmission data SD from the failure detection unit 1 has been changed to "0", so the output of the OR gate 22 is "0" and the output of the data OR circuit 3 is constantly "0". Therefore, there is a problem that the transmission data SD from the terminal TE-A side is destroyed in a disabled state.

Therefore, the present invention relates to such a data transfer device,
Even if the terminal does not have the RS control function, the purpose is not to destroy the transmission data of the terminal in which the transmission path failure has not occurred.

[Means for solving the problem]

In order to solve the above problems, in the data transfer device according to the present invention, as shown in principle in FIG.
Alarm signal AL and function setting signal (RS
(Control presence / absence signal), and a data mask unit 2 for determining whether the transmission data SD is changed to a predetermined logical value from the failure detection unit 1 and the transmission request signal RS to determine whether the transmission data is valid or invalid. There is.

[Action]

In the data transfer device of the present invention shown in FIG. 1, when a transmission path failure occurs with a certain terminal as shown in the figure, the failure detection unit 1 detects this and transmits the transmission data SD from the terminal TE.
The transmission request signal RS and the transmission request signal RS are changed to a predetermined logical value, and the alarm signal AL generated in association with this is also sent to the data mask unit 2.

In the data mask section 2, when the function setting signal (RS control presence / absence signal) is received together with these signals, the transmission data becomes the disable state “1” indicating that the transmission data is invalid, and therefore the data OR circuit 3 is in the other state. It is possible to take an OR without destroying the transmission data SD of the terminal.

〔Example〕

FIG. 2 shows an embodiment of the data transfer apparatus according to the present invention shown in FIG. 1, in which the RSC signal indicates a function setting signal (RS control presence / absence signal). , Two terminals TE-A and TE-B are used as a plurality of terminals, an inverter 40 for inverting the RSC-A signal and the RSC-B signal, and an output of the inverter 40 and the failure detection unit 1
Transmitting data by AND gate 41 that inputs alarm signals AL-A, AL-R from (not shown) and output of AND gate 41
The control unit 4 is composed of SD-A, SD-B and the buffer 42 for changing the signal of the transmission request signals RS-A, RS-B. It is attached.

Next, the operation of this embodiment will be described with reference to the time chart of FIG. The level "0" or "1" shown in FIG. 2 indicates the level after the occurrence of the fault.

First, in the normal state, as in the above example, the A side terminal TE-A is in use, the B side terminal TE-B is not in use, and the B side terminal TE-B does not have the RS control function. Then, the transmission request signal RS-B holds the "1" level and the transmission data SD is also at the "1" level.

Also, the RS control signal RSC-B of the B side terminal is R
Assuming that there is no S control function, the signal RSC-B of level "0" is inverted by the inverter 40 and input to the AND gate 41. At this time, since the alarm signal AL-B is also "0" level, AND The output (d) of the gate 41 also becomes "0".

Therefore, the buffer 42 passes the transmission data SD-B and the transmission request signal RS-B as they are, so that the signals (a) and (b) both become "1", and therefore the output of the OR gate 22 also becomes "1". Therefore, the transmission data SD from the terminal TE-A side of the data OR circuit 3 can be passed as it is.

In this case, even if the signal RSC-B is "1" (with the RS function), the output of the AND gate 41 is "0", and the same operation is performed.

Now, when the fault F occurs between the terminal TE-B and the data transfer device 10 as shown in the figure, the alarm signal AL-B generated from the fault detection unit 1 changes to "1", and therefore the signal RSC-.
If B is set to "0", the output of AND gate 41 (d)
Changes to "1".

From the time of occurrence of this failure, the failure detection unit 1 causes the terminal TE-B
Both the transmission data SD-B and the transmission request signal RS-B of "0"
Will be changed to (issued by DNR).

If it is left as it is, the operation will be the same as the conventional one,
In the present invention, since the buffer 42 holds the transmission data SD-B and the transmission request signal RS-B at the level "1", the OR gate
Since 22 holds the output (c) at the level "1" regardless of the output of the AND gate 21, the transmission data SD-A of the terminal TE-A should be transferred without being disabled. You can

〔The invention's effect〕

As described above, according to the data transfer apparatus of the present invention, since the data mask unit that receives the alarm signal at the time of the failure and the function setting signal to perform the mask determination of the transmission data and outputs the data is provided, the point-multipoint Even if a point-to-point failure occurs, data transfer can be performed normally regardless of the presence or absence of the RS control function, which can contribute to the reliability improvement of data communication.

[Brief description of drawings]

FIG. 1 is a block diagram showing the principle of a data transfer device according to the present invention, FIG. 2 is a circuit diagram showing an embodiment of the data transfer device according to the present invention, and FIG. 3 is an embodiment of the present invention. FIG. 4 is a time chart, and FIG. 4 to FIG. 6 are block diagrams for explaining the configuration and operation of the conventional example. In FIG. 1, HC ... Host computer, TE ... Terminal, 10 ... Data transfer device, 1 ... Fault detection unit, 2 ... Data mask unit, 3 ... Data OR circuit, SD ... Transmission data, RS: Send request signal, RS ': Send request signal Inverted signal of RS, AL: Alarm signal, DS: Disable signal. In the drawings, the same reference numerals indicate the same or corresponding parts.

Claims (1)

(57) [Claims] 1. A transmission request signal (R) transmitted from a terminal (TE) which is connected between a host computer (HC) and a terminal and is requested to transmit data by the host computer (HC).
A data transfer device for transferring S) and data (SD) to the host computer (HC), which allows the transmission data (SD) and the transmission request signal (RS) to pass through in the normal state and the terminal (TE). When a fault occurs in the alarm signal, the alarm signal (A
L) generating a failure detection unit, a function setting signal indicating whether or not the terminal has a transmission request control function, the transmission data (SD) and a transmission request signal from the failure detection unit (1) (RS) and the alarm signal (AL) to determine whether the transmission data is valid / invalid, and output a data mask section (2) only when it is determined to be valid for each terminal (TE). In addition, the transmission data (SD) from each data mask part
OR the data and send it to the host computer (HC)
A data transfer device comprising a circuit (3).