JPH05102892A - Bypass device - Google Patents

Abstract

PURPOSE:To provide the bypass device for which it is not necessary to respectively provide power sources and to install a line exclusive for supplying power. CONSTITUTION:This device is equipped with a power supply component extracting circuit 14 to extract a power supply component by fetching a superimposed signal superimposing a signal component and the power supply component from a data transmission line 4A, signal component extracting circuit 7 to extract the signal component from the superimposed signal, repeater circuit 13 to shape/amplify the signal component, and synthesizer circuit 15 to synthesize the signal component and the power supply component. Therefore, since the respective power sources for driving the bypass device or the line exclusive for supplying power made to be unnecessary, the configuration can be simplified.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a bypass device,
More specifically, the present invention relates to a bypass device used to attach / detach a slave station to / from a data transmission line.

[0002]

2. Description of the Related Art FIG. 7 shows a conventional bypass device (21
It is a block diagram of the ring-shaped data communication system (301) using A), (21B), (21C). In this data communication system (301), a master station (22) and bypass devices (21A), (21B) and (21C) are connected via data transmission lines (4A), (4B), (4C) and (4D). It is configured to be connected in a ring shape, and slave stations (3A) and (3C) are attached to the bypass devices (21A) and (21C). The bypass device (21B) is separated from the slave station (3B).

The power source (8P) is exclusively used by the master station (22). The power supply (8A) is shared by the bypass device (21A) and the slave station (3A). Also, the power supply (8C)
It is shared by the bypass device (21C) and the slave station (3C). The power supply (8B) is shared by the bypass device (21B) and the slave station (3B), but since the slave station (3B) is disconnected, the bypass device (21B) is effectively occupied. ..

FIG. 8 is a block diagram of the bypass device (21A). The connection detector (5) detects whether or not the slave station (3A) is connected to the bypass device (21A). The switch (6) is controlled by the output of the connection detector (5). That is, the slave station (3A) is connected to the bypass device (21
When connected to A), the data transmission line (4
A) is connected to the input of the slave station (3A), and the output of the slave station (3A) is connected to the repeater circuit (13). On the other hand, the slave station (3
When A) is not connected to the bypass device (21A), the data transmission line (4A) is connected to the repeater circuit (13).
Connect to. The repeater circuit (13) is a signal transmitted by the data transmission line (4A) or a slave station (3A).
The output signal of is subjected to waveform shaping and amplification, and is sent to the data transmission line (4B). Bypass device (21B), (21
C) also has the same configuration as above.

FIG. 9 shows a conventional bypass device (21A),
It is a block diagram of another ring-shaped data communication system (302) using (21B) and (21C). This data communication system (302) is a modification of the power supply system of the ring data communication system (301) of FIG. That is, the master station (22) and the bypass devices (21A), (2
1B) and (21C) and slave stations (3A) and (3C) share a power source (9P).

[0006]

In the above-mentioned conventional bypass devices (21A), (21B), (21C), power supplies (8A), (8B), (8C) for driving them are individually required. , Data transmission lines (4A), (4B),
A new dedicated power line (1) different from (4C) and (4D)
9) is required to be installed, which complicates the configuration.

Therefore, an object of the present invention is to provide a bypass device which does not need to be provided with an individual power source and does not require installation of a dedicated power source line.

[0008]

SUMMARY OF THE INVENTION A bypass device of the present invention comprises a power source component extraction circuit for extracting a power source component by taking in a superposed signal in which a signal component and a power source component are superposed from a data transmission line, and a signal from the superposed signal. It is a structural feature that a signal component extraction circuit for extracting a component, a repeater circuit for shaping / amplifying the signal component, and a combining circuit for combining the signal component and the power supply component are provided.

[0009]

In the bypass device of the present invention, the superimposed signal of the signal component and the power source component is taken in through the data transmission line, the power source component is extracted, and the power source component is used as the power source of the repeater circuit or the like. Therefore, it is not necessary to provide a separate power supply or a power supply dedicated line. Further, since the extracted power source component and the signal component after being shaped / amplified are combined and sent to the data transmission line, it is possible to prevent the signal component from being adversely affected.

[0010]

Embodiments of the present invention will now be described in more detail with reference to the drawings. The present invention is not limited to this. FIG. 1 is a configuration diagram of a ring-shaped data communication system (101) using bypass devices (1A), (1B) and (1C) according to an embodiment of the present invention. The data communication system (101) includes a master station (2) and bypass devices (1A), (1B), (1C) via data transmission lines (4A), (4B), (4C), (4D). Connect in a ring and connect the bypass devices (1A) and (1C) to the slave station (3
A) and (3C) are attached. The bypass device (1B) is separated from the slave station (3B).

The master station (2) has a power source (8P) and is driven by it. In addition, the master station (2) superimposes the signal component and the power source component and outputs the superimposed signal to the data transmission line (4
Sent to A). FIG. 2 illustrates the signal component, the power source component, and the superimposed signal.

The slave stations (3A) and (3C) have power supplies (8a) and (8c), respectively, and are driven by them. The slave station (3B) is driven by the power supply (8b),
Since the slave station (3B) is detached, the power source (8b) is not provided either.

FIG. 3 is a block diagram of the bypass device (1A). The signal component extraction circuit (7) extracts only the signal component from the superimposed signal received from the data transmission line (4A). The power source component extraction circuit (14) extracts only the power source component from the superimposed signal taken from the data transmission line (4A).

The connection detector (5) detects whether or not the slave station (3A) is connected to the bypass device (1A).
The switch (6) is controlled by the output of the connection detector (5), and when the slave station (3A) is connected to the bypass device (1A) and the power supply (8a) is on, the signal component extraction circuit Connect (7) to the input of the slave station (3A),
The output of A) is connected to the repeater circuit (13). on the other hand,
When the slave station (3A) is not connected to the bypass device (1A) or the power supply (8a) is off, the signal component extraction circuit (7) is connected to the repeater circuit (13). The repeater circuit (13) shapes and amplifies the waveform of the signal component extracted by the signal component extraction circuit (7) or the output signal of the slave station (3A), and outputs it to the synthesis circuit (15).

The synthesis circuit (15) is a repeater circuit (1
The signal component shaped / amplified by 3) and the power source component extracted by the power source component extraction circuit (14) are combined and sent to the data transmission line (4B).

Each circuit included in the bypass device (1A) operates by obtaining power from the superposed signal taken from the data transmission line (4A) or the power source component extracted from the superposed signal.

FIG. 4 is a circuit diagram of the signal component extraction circuit (7). The signal component extraction circuit (7) is a differentiation circuit (16).
And a D flip-flop (17). The differentiating circuit (16) outputs a trigger signal when detecting a rising portion and a falling edge of a pulse in a superposed signal changing portion on the data transmission line (4A), that is, a signal component. The D flip-flop (17) inverts its output by the trigger signal and outputs a signal component (pulse equivalent to the signal component). FIG. 5 illustrates the superimposed signal, the trigger signal, and the signal component (pulse equivalent to the signal component).

The bypass devices (1B) and (1C) also have the same structure as described above.

The slave stations (3A), (3B), (3C)
The power of may be obtained from the superimposed signal taken in from the data transmission line (4A) or the power source component extracted from the superimposed signal.

FIG. 6 shows the data communication system (10
It is a block diagram which showed 1) in the concrete example of the factory line. In this data communication system (201), the host controller (9) serves as the master station, and the lines (10A), (10B),
(10C) control devices (11A), (11B), (11
C) is a child station.

[0021]

According to the bypass device of the present invention, a power supply for driving each bypass device or a line dedicated to the power supply is not required, so that the structure can be simplified.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a communication system using a bypass device according to an embodiment of the present invention.

FIG. 2 is a waveform diagram of a signal component, a power source component, and a superimposed signal.

FIG. 3 is a block diagram of a bypass device according to an embodiment of the present invention.

FIG. 4 is a circuit diagram of a signal component extraction circuit.

FIG. 5 is a waveform diagram of signals at various parts of the signal component extraction circuit.

FIG. 6 is a configuration diagram of an example in which the present invention is applied to a data communication system on a factory line.

FIG. 7 is a block diagram of an example of a communication system using a conventional bypass device.

FIG. 8 is a block diagram of a conventional bypass device.

FIG. 9 is another configuration diagram of a communication system using a conventional bypass device.

[Explanation of symbols]

 1A Bypass device 1B Bypass device 1C Bypass device 2 Master station 3A Slave station 3B Slave station 3C Slave station 4A Data transmission line 4B Data transmission line 4C Data transmission line 4D Data transmission line 5 Connection detector 6 Switcher 7 Signal component extraction circuit 8a Power supply 8b Power supply 8c Power supply 8P Power supply 9 Upper control device 10A line 10B line 10C line 11A Control device 11B Control device 11C Control device 13 Repeater circuit 14 Power source component extraction circuit 15 Synthesis circuit

[Procedure amendment]

[Submission date] February 28, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0009

[Correction method] Change

[Correction content]

[0009]

In the bypass device of the present invention, the superimposed signal of the signal component and the power source component is taken in through the data transmission line, the power source component is extracted, and the power source component is used as the power source of the repeater circuit or the like. Therefore, it is not necessary to provide a separate power supply or a power supply dedicated line. In addition, the repeater circuit
Ri, from sending out a signal component and a power component after molding / amplified synthesized and data transmission lines, the signal component dullness
Good communication without being affected by
It

Claims (1)

[Claims] 1. A power source component extracting circuit for extracting a power source component by taking in a superposed signal in which a signal component and a power source component are superposed from a data transmission line; a signal component extracting circuit for extracting a signal component from the superposed signal; A bypass device comprising: a repeater circuit for shaping / amplifying a signal component; and a synthesizing circuit for synthesizing the signal component and the power source component.