JP3971620B2 - Communication apparatus and communication system - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a communication device, a communication system, and a signal input device having a simple configuration in telecommunication.
[0002]
[Prior art]
FIG. 3 is a block diagram showing a conventional communication system. Conventionally, a master 1 and a plurality of slaves 2 are connected via a cable 6, and data communication is performed between the master 1 and the plurality of slaves 2.
[0003]
By the way, in order to indicate a transmission destination and a transmission source of data communicated between the master 1 and the slave 2, data indicating a unique address (hereinafter referred to as “address data”) is set in the slave 2 in advance. It is necessary to keep. In order to set the address data, an address setter (not shown) is connected to the external terminal 2g dedicated to address setting, and a signal indicating the address is input.
[0004]
In order to simplify the configuration, the signal processing circuit 2a treats the signal indicating the address input to the external terminal 2g in the same manner as the signal given from the cable 6 to the external terminal 2f, and sets it in the signal processing circuit 2a. Is done.
[0005]
[Problems to be solved by the invention]
However, in the configuration as described above, there is a problem that the signal from the external terminal 2g is also input to the master 1 and other slaves 2 via the external terminal 2f and the cable 6. In order to solve this problem, conventionally, when the master 1 or another slave 2 is disconnected from the cable 6 or an address setter is connected to the external terminal 2g, the external terminal 2f of the slave 2 is mechanically connected. However, these methods have a problem in that the configuration becomes complicated.
[0006]
The present invention has been made to solve the above-described problems, and provides a communication device, a communication system, and a signal input device that prevent unnecessary signals from propagating to other communication devices with a simple configuration. With the goal.
[0007]
[Means for Solving the Problems]
The invention of claim 1 is a communication device (5) for exchanging signals with an external communication device (4), and is connected to the external communication device (4) via a wiring (6). Connected to the first external terminal (5f) to which the current corresponding to the transmission data from the external communication device (4) is input and the first external terminal (5f) via the common connection point (5i). In addition, the first external terminal (5g) between which the current corresponding to the address data is input and the first external terminal (5g) are connected between the first external terminal (5f) and the second external terminal (5g). A diode (5h) anode-connected to 5f) and cathode-connected to the common connection point (5i), and connected to the common connection point (5i) and input to the second external terminal (5g) Detect current and restore to the address data A data conversion circuit (5d) for detecting a current input from an external terminal (5f) through a diode (5h) and converting it into the transmission data, and the transmission at the time of data transmission to an external communication device (4) A current inflow circuit (5c) for drawing a current corresponding to data from the external communication device (4) through the first external terminal (5f), and a data conversion circuit (5d) at the time of data transmission from the external communication device (4) Switching circuit which selectively drives the data conversion circuit (5d) and the current inflow circuit (5c) so as to select the current inflow circuit (5c) during data transmission to the external communication device (4) (5e) and a signal processing circuit (5a) connected to the signal processing circuit (5a) to extract the power supplied to the first external terminal (5f) or the second external terminal (5g) Signal processing And a road-power extracting circuit for driving the (5a) (5b).
[0008]
The invention of claim 2 is a communication system comprising the communication device (5) of claim 1 and an external communication device (4), wherein the external communication device (4) is the first of the communication device (5). And an external terminal (4f) connected to the external terminal (5f) via the wiring (6), a power supply circuit (4b) for supplying power to the external terminal (4f), and a communication device (5 ) Current outflow circuit (4c) for flowing current corresponding to the transmission data to the external terminal (4f), and corresponding transmission data flowing through the external terminal (4f) during data transmission from the communication device (5) The data conversion circuit (4d) for detecting the detected current and converting it into the transmission data, and the current outflow circuit (4c) at the time of data transmission to the communication device (5), and at the time of data transmission from the communication device (5) Select the data conversion circuit (4d) , And a signal processing circuit and a switching circuit for selectively switching the drive current inflow circuit (4c) and a data conversion circuit (4d) (4e) (4a ).
[0009]
According to a third aspect of the present invention, there is provided a communication system comprising the communication device according to the first aspect and a signal input device (3) connected to the second external terminal (5g). (3) an external terminal (3f) connected to the second external terminal (5g) of the communication device (5), a power supply circuit (3b) for supplying power to the external terminal (3f), and a desired Between the signal output circuit (3a) for flowing a current corresponding to the signal indicating the address of the signal to the external terminal (3f) and the external terminal 3f and the signal output circuit 3a, the signal output circuit 3a is anode-connected and the external terminal 3f And a diode (3h) connected to the cathode.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a configuration diagram of a communication system according to an embodiment of the present invention. In the communication system of FIG. 1, a master 4 (communication device) and a plurality of slaves 5 (communication devices) are connected to a cable 6 (wiring) and exchange signals with each other via the cable 6. The plurality of slaves 5 have the same configuration in the figure.
[0011]
The slave 5 includes a signal processing circuit 5a, a power supply extraction circuit 5b, an external terminal 5f, an external terminal 5g, and a diode 5h (propagation preventing element). The external terminal 5f is for connecting the cable 6. The external terminal 5g is for connecting an external address setting device 3 (see FIG. 2) and inputting a signal from the address setting device 3.
[0012]
The diode 5h is interposed between the external terminal 5f and the external terminal 5g, the anode is connected to the external terminal 5f side, the cathode is connected to the external terminal 5g side, and only in the direction from the external terminal 5f side to the external terminal 5g side. Current is passed through. 5i is a common connection point between the cathode of the diode 5h and the external terminal 5g.
[0013]
The signal processing circuit 5a exchanges signals with the common connection point 5i. For example, the signal processing circuit 5a inputs a signal at the common connection point 5i and performs or stores a predetermined calculation, or generates a predetermined signal and outputs it to the common connection point 5i. The signal processing circuit 5a includes a current inflow circuit 5c, a data conversion circuit 5d, and a switching circuit 5e. As will be described later, the switching circuit 5e selectively switches the operation of the data conversion circuit 5d and the current inflow circuit 5c.
[0014]
The power source extraction circuit 5b is connected to the common connection point 5i, extracts power from the common connection point 5i, supplies it to the signal processing circuit 5a, and drives the signal processing circuit 5a.
[0015]
On the other hand, the master 4 includes a signal processing circuit 4a, a power supply circuit 4b, and an external terminal 4f. The signal processing circuit 4a and the power supply circuit 4b are connected to the external terminal 4f. The signal processing circuit 4a exchanges signals with the external terminal 4f. For example, the signal processing circuit 4a inputs a signal in the cable 6 through the external terminal 4f to perform a predetermined calculation or stores it, or generates a predetermined signal and outputs it to the cable 6 through the external terminal 4f. To do. The signal processing circuit 4a includes a current outflow circuit 4c, a data conversion circuit 4d, and a switching circuit 4e. The switching circuit 4e selectively switches the operation of the data conversion circuit 4d and the current outflow circuit 4c as will be described later.
[0016]
The power supply circuit 4b supplies enough power to drive the slave 5 to the external terminal 4f, and supplies power necessary to drive the signal processing circuit 4a to the signal processing circuit 4a. The circuit 4a is driven.
[0017]
Next, the operation will be described. The power supply circuit 4b of the master 4 supplies power to the external terminal 4f. This electric power is transmitted to the common connection point 5 i via the cable 6 and the external terminal 5 f of the slave 5. The power supply extraction circuit 5b extracts the power necessary to drive the signal processing circuit 5a from the common connection point 5i and supplies it to the signal processing circuit 5a. Thereby, the signal processing circuit 5a can be driven.
[0018]
Next, when data is transmitted from the master 4 to the slave 5, the switching circuit 4e selects and operates the current outflow circuit 4c among the current outflow circuit 4c and the data conversion circuit 4d. The current outflow circuit 4c causes a current (signal) having a magnitude corresponding to “1” or “0” of desired data to be transmitted to flow through the cable 6 via the external terminal 4f. The current flowing through the cable 6 is input to the external terminal 5f of the slave 5, passes through the diode 5h, passes through the common connection point 5i, and reaches the signal processing circuit 5a. In the signal processing circuit 5a, the data conversion circuit 5d is selected and operated among the current inflow circuit 5c and the data conversion circuit 5d by the switching circuit 5e, and the data conversion circuit 5d reaches the signal processing circuit 5a. Is detected, and if the magnitude of this current is larger than a predetermined threshold value, it is converted to data of “1”, and if it is smaller, it is converted to “0”. As described above, data can be transmitted from the master 4 to the slave 5.
[0019]
Next, when data is transmitted from the slave 5 to the master 4, the switching circuit 5e selects and operates the current inflow circuit 5c among the data conversion circuit 5d and the current inflow circuit 5c. The current inflow circuit 5c draws a current (signal) having a magnitude corresponding to “1” or “0” of desired data to be transmitted from the common connection point 5i (for example, the common connection point 5i is as low as ground). Connect to the potential). As a result, the cable 6 flows from the power supply circuit 4b of the master 4 to the external terminal 5f of the slave 5 via the cable 6, and a current flows through the diode 5h. In the signal processing circuit 4a of the master 4, the data conversion circuit 4d is selectively operated among the current outflow circuit 4c and the data conversion circuit 4d by the switching circuit 4e, and the data conversion circuit 4d is connected to the cable via the external terminal 4f. 6 is detected, and if the magnitude of this current is larger than a predetermined threshold value, it is converted to “1”, and if it is smaller, it is converted to “0”. As described above, data can be transmitted from the slave 5 to the master 4.
[0020]
When the address data is set in the slave 5, the external terminal 3 f of the address setting device 3 (signal input device, see FIG. 2) is connected to the external terminal 5 g of the slave 5. The address setting device 3 includes a signal output circuit 3a, a power supply circuit 3b, an external terminal 3f, and a diode 3h. The external terminal 3f is for connecting to the external terminal 5g. The diode 3h is interposed between the external terminal 3f and the signal output circuit 3a and the power supply circuit 3b. The anode is connected to the signal output circuit 3a and the power supply circuit 3b side, and the cathode is connected to the external terminal 3f side. Current is passed only in the direction from the 3a and power supply circuit 3b side to the external terminal 3f side. The signal output circuit 3a is for outputting a signal indicating a desired address to the external terminal 3f via the diode 3h.
[0021]
The power supply circuit 3b supplies sufficient power for driving the slave 5 to the external terminal 3f via the diode 3h, and supplies power necessary for driving the signal output circuit 3a to the signal output circuit 3a. The signal output circuit 3a is driven. This electric power is transmitted to the common connection point 5i through the external terminal 5g. The power supply extraction circuit 5b extracts the power necessary to drive the signal processing circuit 5a from the common connection point 5i and supplies it to the signal processing circuit 5a. Thereby, the signal processing circuit 5a can be driven.
[0022]
In a state where the signal processing circuit 5a can be driven, the signal output circuit 3a supplies a current (signal) having a magnitude corresponding to “1” or “0” of desired address data to be set via the diode 3h to the external terminal 3f. Shed. The current flowing out from the external terminal 3f is input to the external terminal 5g of the slave 5 and reaches the signal processing circuit 5a. In the signal processing circuit 5a, the data conversion circuit 5d is selected and operated among the current inflow circuit 5c and the data conversion circuit 5d by the switching circuit 5e, and the data conversion circuit 5d reaches the signal processing circuit 5a. The address data is restored by converting the data into “1” if the magnitude of this current is greater than a predetermined threshold value and converted to “0” if the current magnitude is smaller than the predetermined threshold, and a storage means (not shown) in the signal processing circuit 5a. ). The address data can be set in the slave 5 as described above.
[0023]
Further, since the above-described current (signal indicating an address) flowing into the external terminal 5g does not flow out to the cable 6 by the diode 5h, it is not input to the master 4 or other slaves 5. As a result, it is not necessary to remove the master 4 and other slaves 5 from the cable 6 as in the prior art, or it is not necessary to provide a mechanism for mechanically separating the external terminal 5f from the external terminal 5g. Therefore, it is possible to prevent unnecessary signals (signals indicating addresses) from propagating to the master 4 and other slaves 5 with a simple and inexpensive configuration.
[0024]
In addition, a signal exchanged between the master 4 and the plurality of slaves 5 is represented by current, and the propagation preventing element is configured by the diode 5h, so that a signal indicating an address flowing into the external terminal 5g does not flow out to the cable 6. Can be realized.
[0025]
In addition, by providing the current inflow circuit 5c, current is drawn at the common connection point 5i, so that the signal indicating the address flowing into the external terminal 5g does not flow out to the cable 6, but the slave 5 A current (signal) can flow through the cable 6 and data can be transmitted to another communication device. Therefore, bidirectional data communication can be performed between the master 4 and the plurality of slaves 5.
[0026]
Further, since the current source is configured using the power supply circuit 4b in the master 4 that drives the slave 5, the configuration of the slave 5 is simplified.
[0027]
Further, if the current inflow circuit 5c and the data conversion circuit 5d operate simultaneously, the data conversion circuit 5d may detect a signal generated by the current inflow circuit 5c and malfunction. In order to prevent this, a switching circuit 5e is provided to selectively operate the current inflow circuit 5c and the data conversion circuit 5d. Similarly, if the current outflow circuit 4c and the data conversion circuit 4d operate simultaneously, the data conversion circuit 4d may detect a signal generated by the current outflow circuit 4c and malfunction. In order to prevent this, a switching circuit 4e is provided to selectively operate the current outflow circuit 4c and the data conversion circuit 4d.
[0028]
( Reference example )
Contact name propagation prevention elements in the slave 5, prevents propagating signals from the external terminal 5g to external terminals 5f, as long as it propagates a signal from the external terminal 5f to the external terminals 5g, the diode It may be other than 5h. Similarly, the propagation preventing element in the address setting device 3 can prevent the signal from the external terminal 3f from propagating to the signal output circuit 3a, and can propagate the signal from the signal output circuit 3a to the external terminal 3f. It may be other than the diode 3h. In addition to the two-terminal diodes 5h and 3h as shown in the figure, the diode may be any diode as long as it has a function equivalent to the diodes 5h and 3h. For example, the diode may be a diode-connected transistor. Further, the signal input device may be other than the address setting device 3, and the data given to the external terminal 5g may be other than the address.
[0029]
The diode 3h of the address setting device 3 may be omitted, but is preferably provided. By providing the diode 3h, main components (signal processing circuit 4a, power supply circuit 4b, diode 5h) from the master 4 to the common connection point 5i, and main components from the address setting device 3 to the common connection point 5i. (Signal output circuit 3a, power supply circuit 3b, diode 3h) are the same. Thus, the master 4 is connected to the external terminal 5f of the slave 5 via the cable 6 and a voltage is generated at the common connection point 5i, and the external terminal 3f of the address setting device 3 is connected to the external terminal 5g of the slave 5. Even if connected, the voltage at the common connection point 5i does not change abruptly. As a result, a large electrical stress is hardly generated in the signal processing circuit 5a, and the slave 5 is not easily damaged. Further, the configuration of the slave 5 is simplified by providing the diode 3h in the address setting unit 3 without providing it between the external terminal 5g and the common connection point 5i.
[0030]
【The invention's effect】
According to the communication device of the first aspect of the invention, the current corresponding to the address data input to the second external terminal is processed by the signal processing circuit, and the current is supplied to the first and second external terminals. Since the diode connected between the terminals does not flow to the outside through the first external terminal, it is possible to prevent unnecessary signals from propagating to the external communication device with a simple configuration.
[0031]
According to the communication system of the second aspect of the present invention, bidirectional data communication can be performed with a plurality of communication devices.
[0032]
According to the communication system according to the invention of claim 3, by the same structure and configuration to the common connection point from the configuration and the signal input device from an external communication apparatus to a common connection point, for example, the first to an external terminal in a state where the external communication device is connected, be connected to the signal input device to the second external terminal, the voltage of the common connection point does not change rapidly, the breakage of the signal processing circuit is generated Ku Kunar.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a communication system according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram showing a signal input device according to an embodiment of the present invention.
FIG. 3 is a conceptual diagram showing a conventional communication system.
[Explanation of symbols]
3 Address setter, 3a signal output circuit, 3b power supply circuit, 3f external terminal, 4 master, 4a signal processing circuit, 4b power supply circuit, 4c current outflow circuit, 4d data conversion circuit, 4e switching circuit, 4f external terminal, 5 slave 5a signal processing circuit, 5b power supply extraction circuit, 5c current inflow circuit, 5d data conversion circuit, 5e switching circuit, 5f external terminal, 5g external terminal, 6 cable.

Claims (3)

A communication device (5) for exchanging signals with an external communication device (4),
A first external terminal (5f) connected to the external communication device (4) via the wiring (6) and receiving a current corresponding to transmission data from the external communication device (4);
A second external terminal (5g) connected to the first external terminal (5f) via the common connection point (5i) and receiving a current corresponding to the address data;
A diode (5h) anode-connected to the first external terminal (5f) and cathode-connected to the common connection point (5i) between the first external terminal (5f) and the second external terminal (5g);
It is connected to the common connection point (5i), detects the current input to the second external terminal (5g), restores it to the address data, and passes through the diode (5h) from the first external terminal (5f). A data conversion circuit (5d) that detects an input current and converts it into the transmission data, and a current corresponding to the transmission data from the external communication device (4) during data transmission to the external communication device (4) At the time of data transmission from the current inflow circuit (5c) drawn through the first external terminal (5f) and the external communication device (4), the data conversion circuit (5d) is selected, and the data to the external communication device (4) is selected. A signal processing circuit (5a) having a data conversion circuit (5d) and a switching circuit (5e) for selectively switching the current inflow circuit (5c) so as to select the current inflow circuit (5c) at the time of transmission;
A power supply extraction circuit (5b) connected to the signal processing circuit (5a) and extracting the power supplied to the first external terminal (5f) or the second external terminal (5g) to drive the signal processing circuit (5a) )When,
A communication device comprising: A communication system comprising a communication device (5) according to claim 1 and an external communication device (4).
External communication device (4)
An external terminal (4f) connected to the first external terminal (5f) of the communication device (5) via the wiring (6);
A power supply circuit (4b) for supplying power to the external terminal (4f);
A current outflow circuit (4c) for flowing a current corresponding to the transmission data to the communication device (5) to the external terminal (4f), and the current flowing through the external terminal (4f) during data transmission from the communication device (5) A data conversion circuit (4d) that detects a current corresponding to transmission data and converts it into the transmission data, and a current outflow circuit (4c) at the time of data transmission to the communication device (5) are selected from the communication device (5). A signal processing circuit (4a) having a current inflow circuit (4c) and a switching circuit (4e) for selectively switching and driving the data conversion circuit (4d) so as to select the data conversion circuit (4d) during data transmission. And
A communication system characterized by the above. A communication system comprising the communication device (5) according to claim 1 and a signal input device (3) connected to the second external terminal (5g).
The signal input device (3)
An external terminal (3f) connected to the second external terminal (5g) of the communication device (5);
A power supply circuit (3b) for supplying power to the external terminal (3f);
A signal output circuit (3a) for flowing a current corresponding to a signal indicating a desired address to the external terminal (3f);
Between the external terminal 3f and the signal output circuit 3a, a diode (3h) anode-connected to the signal output circuit 3a and cathode-connected to the external terminal 3f;
A communication system comprising:

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