JP2841436B2 - Communication function self-diagnosis device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication function self-diagnosis device suitable for serial data communication.

[Summary of the Invention]

The present invention provides a communication function self-diagnosis device for a serial communication interface, in which a changeover switch provided between an external connection connector and an input / output terminal of an interface is program-controlled to easily switch from a communication mode to a self-diagnosis mode as needed. It is possible to switch to.

[Conventional technology]

Conventionally, in order to check the communication function of the serial communication interface, the transmission terminal and the reception terminal of this interface are directly connected to each other to set a return (self-diagnosis) mode, and the transmission data of the self is directly received and received. A so-called loop-back test for detecting a match between data and transmission data is performed.

It is also known that when the interface has a double buffering structure, a plurality of transmission data are continuously transmitted to prevent automatic insertion of a synchronization character (Japanese Patent Application Laid-Open No. Sho 62-62).
-269528).

[Problems to be solved by the invention]

By the way, when performing a loopback test, conventionally, it has been necessary to remove a connection cable for communication from a connector portion of a target interface and mount a jumper connector prepared exclusively for the test.

For example, in an interface of the RS-232C standard using an unbalanced communication line, as shown in FIG. 3, a serial communication circuit (interface) that exchanges data with a central processing unit (CPU) (10) of a computer. (11) are the four pins (12a) and (12) of the connector (12) for external connection.
b), (12c) and (12d) and four leads (13a), (13
b), (13c) and (13d) are connected.

On the other hand, the jumper connector (2) has its pins (2a),
(2b), (2c) and (2d) are jumpers (3ab) respectively
And (3cd).

When the jumper connector (2) is attached to the connector (12), the transmission data signal from the interface (11) is transmitted.
TxD passes through the jumper (3ab) and receives the received data signal RxD
Is returned to the interface (11) as well as the receivable state control signal sent from the interface (11).
Is returned to the interface (11) through the jumper (3cd) as the transmittable state control signal ().

For the sake of simplicity, illustration of the ground level is omitted in FIG.

In the interface of the RS-422A standard using a balanced communication line, as shown in FIG. 4, an R-422A exchanges data with a central processing unit (CPU) (10) of a computer.
S-232C interface (11) and connector (14)
And a balanced / unbalanced conversion circuit (15) is interposed. Complementary driver (or receiver) for this converter (15) (15a), (15b), (15c) and (15d)
However, the leads (13a) to (13d)
Connected to 1) and external connector (14)
Four pairs of pins (14a), (14b), (14c) and (14d) and four twisted pair leads (16a), (16b), (16c)
And (16d).

On the other hand, the jumper connector (4) has a pair of pins (4
a), (4b), (4c), and (4d) are connected by pair jumpers (5ab) and (5cd), respectively.

When the jumper connector (4) is attached to the connector (14), a transmission data signal from the interface (11) is transmitted.
TxD passes through the complementary dry (15a), the jumper (5ab) and the complementary receiver (15b), is returned to the interface (11) as a received data signal RxD, and is in a receivable state transmitted from the interface (11). The control signal ▼ is returned to the interface (11) as the transmittable state control signal ▼ through the complementary driver (15c), the jumper (5cd) and the complementary receiver (15d).

The above-mentioned jumper connector involves a troublesome work of attaching and detaching each interface to be tested during the loopback test.

In view of the above, an object of the present invention is to eliminate the inconvenience of conventional self-diagnosis by using a jumper connector,
It is an object of the present invention to provide a communication function self-diagnosis device which can easily perform a loopback test at any time.

[Means for solving the problem]

The present invention relates to a communication function self-diagnosis device for performing self-diagnosis by directly receiving transmission data of a serial communication interface having a transmission terminal, a reception terminal, and an external connection terminal. A first switching unit that selects one of the fixed voltage outputs indicating that it is in the enabled state and supplies the fixed voltage output to the external connection terminal; and a transmission data from the transmission terminal and a reception data from the external connection terminal. And a second switch for selecting one of the switches and supplying the selected signal to the receiving terminal is provided between the transmitting terminal and the receiving terminal and the external connection terminal. The second switching unit is program-controlled to supply the transmission data from the transmission terminal to the external connection terminal through the first switching unit and to control the external connection terminal in one switching state. Is supplied to the reception terminal through the second switching unit, and in another switching state, the transmission data transmitted from the transmission terminal is supplied to the reception terminal through the second switching unit to perform self-diagnosis. A communication function self-diagnosis device that performs a fixed voltage output to an external connection terminal through a first switching unit.

[Action]

According to this invention, the first and second switching sections of the changeover switch are program-controlled to supply the transmission data from the transmission terminal to the external connection terminal through the first switching section in one switching state. Receiving data from the external connection terminal to the receiving terminal through the second switching unit, and in another switching state, transmitting transmission data transmitted from the transmitting terminal to the receiving terminal through the second switching unit. In addition to performing self-diagnosis, the fixed voltage output is supplied to the external connection terminal through the first switching unit.

〔Example〕

Hereinafter, an embodiment of the communication function self-diagnosis device according to the present invention will be described with reference to FIG.

FIG. 1 shows the configuration of an embodiment of the present invention. This first
In the figure, parts corresponding to those in FIG. 3 are given the same reference numerals.

In FIG. 1, reference numeral (21) denotes a selector, which is composed of four changeover switches (21a), (21b), (21c) and (21d). For example, according to a control signal from the CPU (10),
The connection state is switched in conjunction. Switch (21
The fixed contact and the movable contact on one side (cm side) of each of a) to (21d) are interposed between the respective leads (13a) to (13d). The fixed voltage at the “Hi” level is supplied in common to the fixed contacts on the other side (lb side) of the switches (21a) and (21c), and the other fixed contacts of the switches (21b) and (21d) are Switch (21a) by (22ab) and (22cd)
And (21c).

In the case of the communication mode, the switches (21a) to (21d) are in the connection state shown in the drawing by, for example, a "Hi" level switching control signal, and the interface (11) and the connector (12) are connected via the selector (21). Is connected, and serial communication with the other party (not shown) is performed without any trouble.

In the case of the self-diagnosis mode, for example, each switch (21a) to (21d) is switched to a connection state opposite to that shown in FIG. As a result, the transmission data signal TxD from the interface (11) is
2ab) and the switch (21b) to receive the received data signal Rx
D is returned to the interface (11), and the receivable state control signal transmitted from the interface (11) is changed to a jumper (22cd) and a switch (21d).
, And is returned to the interface (11) as a transmittable state control signal ▼.

In a diagnosis unit (not shown), the transmission data and the directly received data are compared to determine whether the communication function of the interface is normal.

In this case, a fixed voltage of "Hi" level is sent to the other party (not shown) through the switches (21a) and (21c), and it is notified that the other party is in the reception impossible state.

According to the embodiment of FIG. 1, when an error occurs during communication, the selector can be immediately switched to the loopback mode by the control signal to perform self-diagnosis.

Further, the generation of the control signal can be appropriately set in the program, and the self-diagnosis can be easily performed at any time, for example, every time the power is turned on.

Next, another embodiment of the communication function self-diagnosis device according to the present invention will be described with reference to FIG.

FIG. 2 shows the configuration of another embodiment of the present invention. In FIG. 2, parts corresponding to those in FIGS. 1 and 4 are given the same reference numerals.

In FIG. 2, reference numeral (31) denotes a selector, which is composed of four pairs of changeover switches (31a), (31b), (31c), and (31d). For example, in accordance with a control signal from the CPU (10),
The connection state is switched in conjunction. A fixed contact and a movable contact on one side (cm side) of each of the switch pairs (31a) to (31d) are inserted in the middle of each of the twisted pair leads (16a) to (16d). A fixed voltage of “Hi” level is supplied in common to the other (lb side) fixed contacts of the switch pair (31a) and (31c), and the other fixed contact of the switch pair (31b) and (31d) is The other fixed contacts of the switch pairs (31a) and (31c) are connected by jumpers (32ab) and (32cd), respectively.

In the case of the communication mode, each switch pair (31a) to (31d) is in the connection state shown in the figure by a switching control signal of "Hi" level, and the interface (11) and the connector (14) are connected via the selector (31). ) Is connected, and serial communication with a partner (not shown) is performed without any trouble.

In the case of the self-diagnosis mode, for example, each switch pair (31a) to (31d) is switched to a connection state opposite to the connection state by a switching control signal of “Lo” level. As a result, the transmission data signal TxD from the interface (11) is output to the complementary driver (15a), the jumper (32ab), the switch pair (31b), and the complementary receiver (15b).
Through the interface (1
Returning to 1), the receivable state control signal transmitted from the interface (11) passes through the complementary driver (15c), the jumper (32cd), the switch pair (31d), and the complementary receiver (15d). Then, it is returned to the interface (11) as the transmission enable state control signal ▲.

In a diagnosis unit (not shown), the transmission data and the directly received data are compared to determine whether the communication function of the interface is normal.

In this case, the "Hi" level fixed voltage is transmitted to the other party (not shown) through the switch pair (31a) and (31c) to notify that the other party is in the reception impossible state.

According to the embodiment shown in FIG. 2, self-diagnosis can be easily performed at any time, as in the embodiment shown in FIG.

〔The invention's effect〕

As described in detail above, according to the present invention, a communication function self-diagnosis device that performs self-diagnosis by directly receiving transmission data of a serial communication interface including a transmission terminal, a reception terminal, and an external connection terminal, A first terminal for selecting one of the transmission data from the transmission terminal and the fixed voltage output indicating that the reception is not possible, and supplying the selected voltage to the external connection terminal;
And a second switching unit for selecting one of the transmission data from the transmission terminal and the reception data from the external connection terminal and supplying the selected data to the reception terminal. It is provided between the receiving terminal and the external connection terminal, and program-controls the first and second switching units of the changeover switch so that in one switching state,
The transmission data from the transmission terminal is supplied to the external connection terminal through the first switching unit, and the reception data from the external connection terminal is supplied to the reception terminal through the second switching unit. In the above, the self-diagnosis is performed by supplying the transmission data transmitted from the transmission terminal to the reception terminal through the second switching unit, and the fixed voltage output is supplied to the external connection terminal through the first switching unit. In addition, it is possible to obtain a communication function self-diagnosis device that can easily switch from the communication mode to the self-diagnosis mode at any time, and that can communicate to the communication partner that reception is not possible during the self-diagnosis mode. .

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a communication function self-diagnosis device according to the present invention, FIG. 2 is a block diagram showing a configuration of another embodiment of the present invention, and FIGS. FIG. 11 is a block diagram illustrating a configuration example of a conventional communication function self-diagnosis device. (10) is a central processing unit (CPU), (11) is a serial communication circuit, (12) and (14) are connectors, (21) and (31) are selectors, and (22) and (32) are jumpers. .

Claims (1)

(57) [Claims] 1. A communication function self-diagnosis device for directly receiving transmission data of a serial communication interface having a transmission terminal, a reception terminal, and an external connection terminal and performing a self-diagnosis, wherein the transmission data from the transmission terminal and A first switching unit for selecting one of the fixed voltage outputs indicating that the reception is not possible and supplying the fixed voltage output to the external connection terminal; and a transmission data from the transmission terminal and the external connection terminal. And a second switch for selecting one of the received data and supplying the selected data to the reception terminal, between the transmission terminal and the reception terminal, and the external connection terminal. The first and second switching units of the changeover switch are program-controlled to transmit the transmission data from the transmission terminal in the first changeover state in one changeover state. To the external connection terminal, and to supply the received data from the external connection terminal to the reception terminal through the second switching unit. In another switching state, the data is transmitted from the transmission terminal. Transmitting the transmitted data to the receiving terminal through the second switching unit and performing the self-diagnosis, and supplying the fixed voltage output to the external connection terminal through the first switching unit. Characteristic communication function self-diagnosis device.