JPH0526851Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] The present invention provides a transmission request signal/transmission request signal that transfers a transmission request signal from a data terminal device and outputs it as a reception detection signal.
The present invention relates to a data transmission device having a received detection signal pseudo transfer function.

[Conventional technology] In conventional data transmission equipment, the transmission request signal is turned off.
Sometimes, instead of the transmitted data signal, the generator polynomial 1+
Transmits a bit pattern (idle pattern) in which binary “1” is scrambled by X ^-3 +X ^-7 ,
When the transmission request signal changes from OFF to ON, an 8-bit pattern (on pattern) in which binary 0's are scrambled by the generating polynomial is transmitted, and then data bits are transmitted. On the other hand, when the receiver detects the idle pattern of 48 to 64 bits, it turns off the reception detection signal, and when it detects the 8-bit on pattern, it turns on the reception detection signal.

[Problems to be Solved] In the conventional method described above, an 8-bit on-code is transmitted, and the reception detection signal is turned ON only when the 8-bits are detected on the receiving side. Therefore, if a transmission error occurs during on-code transmission,
Once the reception detection signal becomes OFF due to factors such as a momentary line interruption during transmission,
After that, the reception detection signal will remain until the on-code is detected.
The drawback was that it remained OFF, making data communication impossible.

[Means for solving the problem] This idea was made in view of the above circumstances.
When the transmission request signal sent from the transmitting side is off, an idle pattern is generated, and when the transmission request signal changes from off to on, an on pattern of a predetermined length is generated, and reception is detected using this on pattern. In a data transmission device that transmits a signal to the transmitting side, then receives data transmitted from the transmitting side, and turns off the reception detection signal based on the idle pattern, an on-sign detection circuit that detects the on-pattern. an idle code detection circuit that detects the idle pattern; and an idle code detection circuit that is set when detecting the on pattern and turns on the reception detection signal, while the idle code detection circuit detects the idle pattern. a flip-flop that is reset to turn off the reception detection signal when the receiver reception status signal indicating the reception status of the data is interrupted; and after the idle pattern is no longer detected by the idle code detection circuit. , when the on-sign detection circuit does not detect the on-pattern within a certain period of time, transmits a set signal to set the flip-flop;
The apparatus is characterized by comprising a monitoring circuit that sets the flip-flop when the data is restored after it has gone down during reception.

[Embodiment] An embodiment of this invention will be described below with reference to the drawings.

FIGS. 1 and 2 are block diagrams showing a transmitter and a receiver, respectively, of a data transmission device according to an embodiment of the present invention. In these figures, 1 is an idle code generation circuit which generates an idle pattern and supplies it to the selector circuit 3. Reference numeral 2 denotes an ON code generation circuit, which generates an ON pattern and supplies it to the selector circuit 3. In addition to the above idle pattern and on pattern, the selector circuit 3 is supplied with transmission data 10 and a transmission request signal 11.
The selector circuit 3 selects one of these signals and supplies it as the transmission signal 13 to the receiving section. Further, the selector circuit 3 outputs a transmittable signal 12.

On the other hand, in FIG. 2, reference numeral 4 denotes an idle code detection circuit which detects an idle pattern from the transmission signal 13 and supplies a detection signal to the monitoring circuit 6 and flip-flop 9. Further, 5 is an on-sign detection circuit which detects an on-pattern from the transmission signal 13 and supplies a detection signal to the monitoring circuit 6 and the first input terminal of the AND gate 8. The monitoring circuit 6 monitors the detection signals supplied from the idle code detection circuit 4 and the on-sign detection circuit 5, and after the detection signal is no longer output from the idle code detection circuit 4, the on-sign detection circuit is activated within a predetermined time. When no detection signal is output from the AND gate 5, a set signal is supplied to the second input terminal of the AND gate 8.

The flip-flop 9 is set by the output of the AND gate 8 and outputs a reception detection signal, and is reset by the detection signal of the idle code detection circuit 4 or when the receiver reception status signal 16 is cut off. be done.

Further, 7 is a clamp circuit, which outputs the transmission signal 13 as reception data while the reception detection signal is output.

The operation of the data transmission device having the above configuration will be explained using the flowcharts shown in FIGS. 3 and 4.

When the transmission request signal 11 is OFF, the selector circuit 3
An idle pattern is selected by and output as a transmission signal 13. The transmission request signal 11 is
When it changes from OFF to ON, the selector circuit 3 selects an ON pattern and outputs a fixed number of bits as the transmission signal 13. Thereafter, the transmission enable signal 12 is turned on and the transmission data 10 is selectively output.

On the other hand, the received data 14 is clamped by the reception detection signal 15 to prevent idle patterns and on patterns from being output as much as possible. When an idle pattern is detected, the flip-flop 9 is reset and the reception detection signal is turned off. When an on pattern is detected, the flip-flop 9 is set and the reception detection signal is turned on. here,
If a transmission error occurs in the on pattern, the detection signal 23 is not output. Output will not occur until the next on pattern is detected. Here, the monitoring circuit 6 includes a detection signal 22 of the idle code detection circuit 4, a detection signal 23 of the on-code detection circuit, and a receiver reception state signal 16.
is monitored, and if the idle pattern is not detected for a certain number of bits or more in a state in which the signal is normally received, a set pulse 24 for setting the flip-flop 9 is output. Next, when a dropout occurs due to a momentary signal interruption, etc., the reception detection signal output 15B is turned OFF due to the interruption of the reception signal 16.
However, after recovery, due to the set pulse 24,
It becomes ON.

According to this embodiment, as shown in FIG. 3, the output 14 of the received data by the on-pattern detection signal 23 and the output 14 of the received data by the set pulse 24 of the monitoring circuit 6 when no on-pattern is detected. Regarding the output 14A, the latter output 14A of received data is output a little later. Therefore, the first part of the transmitted data signal 13 will not be received. However, such drawbacks can be avoided, for example, by lengthening the time it takes for the transmittable signal to turn on. Data codes lost due to signal interruption or the like can be recovered by means such as retransmission.

[Effects of the invention] As explained above, according to this invention, when the transmission request signal sent from the transmitting side is off, an idle pattern is generated and the transmission request signal changes from off to on. Sometimes generating an ON pattern of a predetermined length, transmitting a reception detection signal to the transmitting side using this ON pattern, and then receiving data sent from the transmitting side,
In the data transmission device that turns off the reception detection signal according to the idle pattern, an on-code detection circuit that detects the on-pattern, an idle code detection circuit that detects the idle pattern, and an on-sign detection circuit that turns off the reception detection signal according to the on-pattern. It is set when the idle code detection circuit detects the idle pattern and turns on the reception detection signal, and is reset when the idle code detection circuit detects the idle pattern or when the receiver reception status signal indicating the reception status of the data is cut off. After the idle pattern is no longer detected by the flip-flop that turns off the reception detection signal and the idle code detection circuit, a set signal is transmitted if the on-code detection circuit does not detect the on-pattern within a certain period of time. The monitor circuit is equipped with a monitoring circuit that sets the flip-flop when the data goes down during reception and then sets the flip-flop when the data is recovered after the data goes down during reception. It is possible to eliminate drawbacks such as the reception detection signal turning OFF and not recovering when the state remains unchanged or when the line is momentarily cut off.

[Brief explanation of the drawing]

1 and 2 are block diagrams showing a transmitter and a receiver, respectively, of a data transmission device according to an embodiment of the invention, and FIGS. 3 and 4, respectively, explain the operation of the same data transmission device. This is a timing chart for. DESCRIPTION OF SYMBOLS 1...Idle code generation circuit, 2...On code generation circuit, 3...Selector circuit, 4...Idle code detection circuit, 5...On code detection circuit, 6...
Monitoring circuit, 7...clamp circuit, 8...and gate, 9...flip-flop.

Claims (1)

[Scope of utility model registration request] When the transmission request signal sent from the transmitting side is off, an idle pattern is generated, and when the transmission request signal changes from off to on, an on pattern of a predetermined length is generated, and reception is detected using this on pattern. In a data transmission device that transmits a signal to the transmitting side, then receives data transmitted from the transmitting side, and turns off the reception detection signal based on the idle pattern, an on-sign detection circuit that detects the on-pattern. an idle code detection circuit that detects the idle pattern; and an idle code detection circuit that is set when detecting the on pattern and turns on the reception detection signal, while the idle code detection circuit detects the idle pattern. a flip-flop that is reset to turn off the reception detection signal when the receiver reception status signal indicating the reception status of the data is interrupted; and after the idle pattern is no longer detected by the idle code detection circuit. , when the on-sign detection circuit does not detect the on-pattern within a certain period of time, transmitting a set signal to set the flip-flop;
The data transmission device further comprises a monitoring circuit that sets the flip-flop when the data is restored after it has gone down during reception.