JP2962223B2 - Integrated transmission equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technology for integrating a communication path between a LAN (local area network) communication device and another communication device, and more particularly to a technology for integrating a LAN transmission device with a telephone communication device or another data communication device. The present invention relates to a transmission apparatus for integrating and transmitting these signals without performing frame or time division multiplexing.

[0002]

2. Description of the Related Art Conventionally, a communication path of a LAN and a communication path of another communication system have been separately provided. However, in recent years, LAN
A technique has been used in which a communication path and a communication path of another communication system are frame-multiplexed by time division multiplexing and transmitted by one transmission path. For example, a technology for integrating a communication path between a LAN and an exchange by time-division frame multiplexing is an IE.
It is specified in EE802.9.

A signal multiplexed by a multiplex communication apparatus according to this specification has a frame structure of 2B + D + P,
After the signal is converted into packet data, it is transmitted in a P frame, and a switching signal for switching communication is transmitted in a B frame. Therefore, the exchange requires a dedicated trunk corresponding to 2B + D + P, and the LAN communication device requires 2 trunks.
A special device called an access unit for interfacing with the communication path of the B + D + P frame is required.

[0004]

The above-described conventional multiplex communication apparatus requires a frame conversion adapter for multiplexing a LAN signal from the LAN communication apparatus and a communication signal from the exchange into a dedicated frame of 2B + D + P. The dedicated frame is separated by a similar frame conversion adapter between the LAN transmission device and the exchange at the communication destination, returned to the LAN signal and the telephone communication signal, and distributed to the existing interface terminal.
For this reason, the conventional multiplex transmission apparatus is very expensive,
Since dedicated frames are used for communication devices and communication devices such as exchanges, maintenance is difficult and delay is increased.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to superimpose and transmit a LAN signal and a signal from an exchange or a signal from another LAN communication apparatus without using the concept of frame time division multiplexing. To provide a transmission device that performs

[0006] An integrated transmission device according to the present invention comprises: a LAN signal between a first LAN communication device and a second LAN communication device;
The communication signal between the first signal transmission device and the second signal transmission device is integrated and transmitted. The integrated transmission device is connected to the first LAN communication device and the second LAN communication device via the first and second transformers, and is connected to two pairs of pairs for transmitting LAN signals. And a first and second superimposing / separating device for superimposing and separating the communication signal from the second signal transmission device and the LAN signal. The first superposition / separation device is connected to the first transformer and receives a first communication from the first intermediate level point to which half the terminal voltage of each pair of the two pairs is applied to the two pairs. The communication signal from the device is superimposed, and the communication signal is separated from the first intermediate level point. The second superposition / separation circuit is connected to the second transformer, and is connected to the two pairs of pairs from a second intermediate level point to which a half of the terminal voltage of each pair of the two pairs is applied. , And separates the communication signal from its second intermediate level point. In the above configuration, the first signal transmission
The transmitting device and the second signal transmitting device are respectively telephone communication signals.
Is a telephone signal transmission device for transmitting a telephone signal.

When the communication signals from the first and second signal transmission devices are supplied to the first and second intermediate level points, they are applied to the first and second transformers in opposite directions, respectively. The first and second LAN communication devices do not detect these communication signals, and similarly, the first and second LAN communication devices
Are not separated from the intermediate level point of the first and second signal transmission devices.

In the integrated transmission device according to the present invention, the first superposition / separation circuit superimposes a communication signal from the first signal transmission device as an in-phase component on each pair of the two pairs of pairs for transmitting the LAN signal. The communication signal is separated from the component signal.
The second superposition / separation device superimposes a communication signal from the second signal transmission device as an in-phase component on each of the two pairs of pairs transmitting the LAN signal, and separates the communication signal from the in-phase component signal. In the above configuration, the first signal transmission device and the second signal transmission device
Signal transmission devices transmit telephone communication signals.
It is a talk signal transmission device.

When the first and second separating and superimposing circuits are transformers, the first and second intermediate level points are the center taps of the pair-side windings of the transformer. Also, the first and second intermediate level points may be connection points formed between terminals of each pair of the two pairs of wires by a capacitance circuit, an inductance circuit, or a resistor, instead of the center tap of the transformer.

The present invention also provides a first signal transmission device, a second signal transmission device,
May be third and fourth LAN communication devices. In this case, the LAN signal exchanged between the third and fourth LAN communication devices is superimposed on the LAN signal between the first and second LAN communication devices at an intermediate level point of the first and second superposition / separation circuits. Therefore, it is useful to reduce transmission paths.

[0011]

Embodiments of the present invention will now be described in detail with reference to the drawings.

In FIG. 1, LAN concentrator 110
The first LAN communication device is IEEE802 or ANSY-
A LAN signal (digital signal) specified by X3 is communicated. The LAN concentrator 110 connects the LAN data terminal 113, which is the second LAN communication device, to two pairs of the first pair 1
Connect via 0,20. The first pair lines 10, 20 are
The line impedances of the transmission path and the reception path of the LAN signal are the same. LAN concentrator 110 is LA
A LAN signal from an N data processing device (not shown) is distributed to a plurality of LAN data terminals, or a LAN signal from a plurality of LAN data terminals is received and output from the LAN data processing device. Thus, the LAN concentrator 110
Can connect a plurality of LAN data terminals, but here, only one LAN data terminal 113 is connected for explanation.

Transformers 50 and 51, which are first superposition / separation circuits, are connected to one ends of first pair wires 10 and 20 and connected to LANs.
It is accommodated in the concentrator 110. Transformers 60 and 61 which are second separating and superimposing circuits are connected to the other ends of the pair wires 10 and 20, and are connected to the LAN data terminal 113. The transformers 50 and 51 are housed in the LAN concentrator 110, but the transformers 60 and 61 are independent of the LAN data terminal 113.

An exchange 111 as a first signal transmission device
Are connected to the transformers 50 and 51 by the second pair wire 30 and the transformer 7.
0 is connected. At this time, the pair of second pair lines 30 from the exchange 111 is connected to the first intermediate level point at which the terminal voltage of each pair of the first pair lines 10 and 20 in the transformers 50 and 51 is halved, that is, In the embodiment, the transformer 5
0 and 51 are connected to the center taps of the windings on the pair wires 10 and 20 side. As a result, a telephone communication signal composed of a circuit-switched data component and a DC component of the exchange 111 is superimposed on and separated from the LAN signal transmitted on the two pairs of first pair lines 10 and 20 at the midpoint tap. .

A telephone terminal 112 as a second signal transmission device is connected to the transformers 60 and 61 via a third pair line 40. At this time, the pair of third pairs 40 from the telephone terminal 112 is
The second intermediate level point at which the terminal voltage of each pair of 0 and 20 is halved. In this embodiment, the pair lines 10 and 2 of the transformers 60 and 61 are connected.
It is connected to the center tap of the zero-side winding. by this,
At the second intermediate point, a telephone communication signal composed of a circuit-switched data component and a DC component of the telephone terminal 112 is superimposed on and separated from the LAN signal transmitted on the first paired line 10, 20.

As described above, the exchange 111 and the telephone terminal 1
12 are two pairs of first pairs 10, 10 for transmitting LAN signals.
The telephone communication signal is superimposed on the LAN signal by being connected to the center taps of the transformers at both ends of the terminal 20, and
The telephone communication signal is separated from the center tap of the transformer. At this time, telephone communication signals from the exchange 111 and the telephone terminal 112 are transmitted to the two pairs of the first pair lines 10 and 20 via the LAN.
The signal is superimposed on the signal as an in-phase component signal, and the LAN signal and the telephone communication signal are transmitted without being frame-multiplexed. The telephone communication signal is transmitted between the pair wires 10 and 20 as an in-phase component.
At 0,61, they flow in opposite directions from the midpoint tap,
Canceled by each transformer, LAN concentrator 110 and LAN
No telephone communication signal is extracted from the data terminal 113.

Note that a LAN concentrator is used instead of the LAN data terminal 113, and LA
An N concentrator may be connected. In addition, the telephone terminal 112
May be an analog telephone terminal or a digital telephone terminal. Further, a telephone exchange signal may be relayed between exchanges by using an exchange, an exchange relay device or the like instead of the telephone terminal 112. Further, a video conference device and its terminal device may be used instead of the exchange 111 and the telephone terminal 112. Further, the telephone terminal 112 is not limited to a two-wire telephone device, but may use a four-wire telephone device. In this case, 4
The transmission line from the wire telephone device has two pairs of first pairs 10,
20 and the receive line from the four-wire telephone set is connected to the other two pairs of wires, respectively, via the center tap of the transformer.

In the integrated transmission apparatus shown in FIG. 1, a transformer 5 as a first separating and superimposing circuit is provided in the LAN concentrator 110.
0, 51, but the transformers 50, 51
11 near the LAN concentrator 110
The N signal may be supplied to the transformers 50 and 51 via a coaxial cable. In this case, the coaxial cable and the transformer 5
Between the 0 and 51 pairs, a connection converter for connecting the coaxial cable and the two pairs is required.

Furthermore, if the connection conversion device is used,
Transformers 50 and 51, transformers 60 and 61 and transformer 7
A coaxial cable is connected to the windings on the side facing the two pairs of pairs 10 and 20 via the connection converter, and the LAN concentrator 110, the exchange 111, the telephone terminal 112, and the LA
The N data terminal 113 may be connected to the coaxial cable.

FIG. 2 is a block diagram showing a second embodiment of the present invention. In the figure, the LAN concentrator 121 and the exchange 122 are the LAN concentrator 110 and the exchange 1 of FIG.
It has the same function as 11. LAN concentrator 121 and LAN
The data terminals 124 are connected by two pairs of first pairs 10,20. The two first pairs 10, 20 are respectively connected between the transformers 125 and 127 and the transformer 126
And 128. Transformers 125 and 126
Is accommodated in the LAN concentrator 121 and the transformer 127
And 128 are accommodated in the LAN data terminal.

The exchange 122 and the telephone terminal 123 are respectively connected to first and second intermediate level points at both ends of the pair lines 10 and 20, where the terminal voltage of each pair of the pair lines 10 and 20 becomes half. At this time, the second pair line 30 from the exchange 122 is
Is connected to a first intermediate level point formed by the capacitance circuits 53 and 54, which are first separating and superimposing circuits, and a third pair line 40 from the telephone terminal 123 is a second separating and superimposing circuit. It is connected to a second intermediate level point formed by the inductance circuits 63 and 64. Thus, the telephone communication signal of the exchange 122 is superimposed on the LAN signal as an in-phase component signal and transmitted to the first pair lines 10 and 20. Similarly, the telephone communication signal of the telephone device 123 becomes an in-phase component signal when it is superposed and separated from the LAN signal by the first pair line. Since the telephone communication signal is diverted in the reverse direction from the first and second intermediate level points to the transformers 125 and 126 and the transformers 127 and 128, the telephone communication signal is canceled and transmitted from the LAN concentrator 121 and the LAN data terminal 124 to the telephone communication signal. Is not ejected.

The second embodiment shown in FIG. 2 is effective when the center tap of the transformer cannot be used.

FIG. 3 is a block diagram showing a third embodiment of the present invention. In the figure, the LAN concentrator 151 and the LAN data terminal 15 connected to the first pair lines 10 and 20 are shown.
Reference numeral 4 corresponds to the LAN concentrator 110 and the LAN data terminal 113 in FIG.

Transformer 155 as a first superposition / separation circuit
And 156 are connected to one ends of first pair wires 10 and 20 and
It is connected to the AN concentrator 151. Transformers 157 and 158, which are second superposition / separation circuits, are connected to the other ends of the pair wires 10 and 20, and are accommodated in the LAN data terminal 154.

The line switch 152 has a function of exchanging information processing data other than voice data. The second pair 30 from the circuit switch 152 is the pair 1 of the transformers 155 and 156.
The third pair 40 from the circuit-switched data terminal 153 is connected to the midpoint tap of the windings on the 0, 20 side.
7 and 158 are connected to the center taps of the windings on the pair wires 10 and 20 side.

Therefore, the two pairs of the first pair lines 10, 20
Is superimposed on the LAN signal transmitted by the line switching circuit 152 and the line switching data terminal 153, and separated from the center taps of the transformers 155 and 156 and the transformers 157 and 158. This realizes an integrated transmission device that transmits LAN signals and circuit-switched data over the same communication path without multiplexing.

In FIG. 3, the second superposition / separation circuit is configured in the LAN data terminal 154, but the configuration position is not limited.

FIG. 4 is a block diagram showing a fourth embodiment of the present invention. In the figure, a packet switch 212 and a packet terminal 213 are used in addition to the LAN concentrator 211 and a plurality of LAN data terminals 214.

The packet switch 212 includes a packet switch 212A for generating and switching packet switch data, and a first switch.
Of transformers 225 and 226, which are superimposing / separating circuits. The packet switching unit 212A includes
A pair of second taps is provided at the midpoint tap of the windings on the side of the pair wires 10 and 20 of FIG.
Are connected via a pair line 30.

The LAN concentrator 211 includes a transformer 22
5,226 are connected to the opposite windings of the paired wires 10,20.

The packet-switched data terminal 213 is connected via a pair of third pairs 40 to the middle point of the windings of the transformers 227 and 228 on the first pairs 10 and 20 side, which are the second superposition / separation circuits. Connected to a tap.

The LAN data terminal 214 is connected to the transformer 22
7,228 is connected to the winding on the opposite side of the pair wires 10,20.

Therefore, in each of the transformers 225 and 226 and the transformers 227 and 228, the packet exchange data signal is superimposed on the LAN signal and separated. This realizes an integrated transmission device that transmits LAN signals and packet-switched data signals without multiplexing.

FIG. 5 is a block diagram showing a fifth embodiment of the present invention. In the figure, in addition to a LAN concentrator 251 and a plurality of LAN data terminals 254, an intercom master unit 252 and an intercom slave unit 253 are used.

The intercom master unit 252 controls the intercom slave unit 253. The intercom slave unit 253 includes an intercom function circuit 253A and transformers 257 and 258, which are second superimposing / separating circuits.

The intercom master unit 252 includes paired lines 10 and 20 of transformers 255 and 256 as a first superposition / separation circuit.
It is connected to the midpoint tap of the side winding through a pair of second pair wires 30.

The LAN concentrator 251 includes a transformer 25
5,256 pairs of wires 10, 20 are connected to the opposite windings.

The interphone function circuit 253A is connected to the middle tap of the windings of the transformers 257 and 258 on the first paired lines 10 and 20 side, which are the second superimposing / separating circuits, via a pair of third paired lines 40. Connected to.

The LAN data terminal 254 is connected to the transformer 25
7,258 is connected to the winding on the opposite side of the pair wires 10,20.

Therefore, in each of the transformers 255 and 256 and the transformers 257 and 258, the intercom communication signal is superimposed on the LAN signal and separated.

FIG. 6 is a block diagram showing a sixth embodiment of the present invention. In the figure, the pair wires 11 and 21 correspond to FIG.
5 is different from the pair lines 10 and 20 in FIG. 5 in that it is not a communication path dedicated to transmission and reception, but a communication path for transmitting bidirectional signals. The LAN communication device 321 and the LAN communication device 324 are connected by the pair line 11, and the LAN communication device 322 and the L
The AN communication device 325 is connected by the pair line 21.
The pair lines 11 and 21 and the LAN communication devices 321 and 322 are connected by transformers 355 and 356 which are first superposition / separation circuits.
325 is connected by transformers 357 and 358 which are the second superposition / separation circuits.

The LAN communication device 323 is connected to the transformer 35
5,356 of the paired wires 11 and 21 are connected to the center taps of the windings, and the LAN communication device 326 is connected to the transformers 357 and 35.
8 is connected to the center tap of the windings on the pair wires 11 and 21 side.

Accordingly, the pair line 11 transmits a LAN signal exchanged between the LAN communication devices 321 and 324, and the pair line 20 transmits a LAN signal exchanged between the LAN communication devices 322 and 325. LAN signals exchanged between the LAN communication devices 323 and 326 via the center tap of the transformer are superimposed and separated.

In the sixth embodiment, the LAN communication device 3
There is an advantage that it is not necessary to separately provide a transmission path for LAN signals exchanged between 23 and 326, which is useful for reducing transmission paths.

The LAN communication device 321 is an IEEE802.
A line concentrator for connecting a LAN node (terminal) defined by the above or a terminal may be used. In FIG. 6, an exchange or a telephone terminal may be connected instead of the LAN communication devices 323 and 326.

In the embodiment shown in FIGS. 1 to 5, one LA
N concentrators and LAN data terminals are two pairs of first pair 1
Although the two LAN communication devices 321 and 322 and the two LAN communication devices 324 and 325 are connected to both ends of the first pair line 1 in the embodiment of FIG.
1 and 12 are connected to both ends. Thus, the present invention
The number of paired wires accommodated in the AN communication device is not limited. LA
The pair transmitting the N signal may be a one-way transmission path or a two-way transmission path. Further, the LAN signal may be a binary signal of 1, 0 or a multi-level signal.

[0047]

As described above, the integrated transmission apparatus according to the present invention does not require a multiplexing circuit and requires only a transformer connection, so that it is very economical. Further, since the installation positions of the first and second superposition / separation circuits can be freely set, the wiring design of the LAN communication device and other communication devices is facilitated.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an integrated transmission device according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing an integrated transmission device according to a second embodiment of the present invention.

FIG. 3 is a block diagram illustrating an integrated transmission device according to a third embodiment of the present invention.

FIG. 4 is a block diagram showing an integrated transmission device according to a fourth embodiment of the present invention.

FIG. 5 is a block diagram illustrating an integrated transmission device according to a fifth embodiment of the present invention.

FIG. 6 is a block diagram illustrating an integrated transmission device according to a sixth embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 paired line 20 paired line 30 2nd paired line 40 3rd paired line 50 transformer 60 transformer

──────────────────────────────────────────────────の Continuation of the front page (51) Int.Cl. ⁶ Identification symbol FI H04M 3/56 H04L 11/20 B 9/00 (56) References JP-A-9-64973 (JP, A) JP-A-7 JP-A-147588 (JP, A) JP-A-7-79231 (JP, A) JP-A-3-296359 (JP, A) JP-A-3-280746 (JP, A) JP-A-3-263964 (JP, A) JP-A-3-96194 (JP, A) JP-A-1-279657 (JP, A) JP-A-59-28746 (JP, A) IEEE Std 802.9-1994, IEEE Standards for Local and Metropolitan Area Network s: Integrated Services (IS) LAN Interface at the Medium Access Co trol (MAC) and Physical (PHY) Layers NEC Technical Report Vol. 49 No. 11 (Vol. 333) 1996, Yasushi Kobayashi et al., "PUPURE Core Line System", pages. 8-12 Bulletin of the Japan Instrumentation Industry Association Instrumentation Work Vol. 16 No. 1 Yoshikazu Kobayashi et al., June 1996, "Introduction to LAN-4 Floor Evolution and LAN Construction for Instrumentation Staff," pages. 23-27 (58) Fields surveyed (Int. Cl. ⁶ , DB name) H04L 12/46 H04L 12/28 H04L 12/64 H04M 11/00 H04M 3/56 JICST file (JOIS) WPI (DIALOG)

Claims (5)

(57) [Claims] 1. A LAN signal between a first LAN communication device and a second LAN communication device and a telephone communication signal between a first telephone signal transmission device and a second telephone signal transmission device. An integrated transmission device for transmitting data in an integrated manner, comprising: two pairs of pairs connected to the first LAN communication device and the second LAN communication device via first and second transformers and transmitting the LAN signal; The first telephone being connected to the two pairs of pairs from a first intermediate level point connected to the first transformer and being applied with half the terminal voltage at one end of each pair of the two pairs of pairs. A first superposition / separation circuit that superimposes the telephone communication signal from the signal transmission device and separates the telephone communication signal from the first intermediate level point; and the two pairs of pairs connected to the second transformer. At the other end of each pair of terminals is applied with half the terminal voltage. A second superposition / separation circuit for superimposing the telephone communication signal from the second telephone signal transmission device on the two pairs of lines from a level point and separating the telephone communication signal from the second intermediate level point possess the door, at least one of the first and second superimposing separation circuit,
From each pair of the two pairs of pairs, the first or second intermediate line
An integrated transmission device having a capacitive element capacitively coupled to a bell point . 2. A first LAN communication device and a second LAN communication device.
LAN signal between communication device and first telephone signal transmission device
And a telephone communication signal between the first telephone signal transmission device and the second telephone signal transmission device.
An integrated transmission device for transmitting data in combination with the first LAN communication device and the second LAN communication device
Connected to the LAN via first and second transformers.
And two pairs of pairs of wires that are connected to the first transformer and that are connected to the first transformer.
A first intermediate level to which half the terminal voltage at one end is applied
From the point, the first telephone signal transmission device is connected to the two pairs of wires.
Superimposing the telephone communication signal from the first
A first superposition separation for separating said telephony signal from a bell point
Circuit, and each pair of the two pairs of wires connected to the second transformer.
The second intermediate level to which half the terminal voltage at the other end is applied
From the point, the second telephone signal transmission device is connected to the two pairs of wires.
Superimposing the telephone communication signal from the
Second superposition separation for separating said telephony signal from a bell point
And at least one of the first and second superposition / separation circuits includes:
From each pair of the two pairs of pairs, the first or second intermediate line
Has inductance coupled to the bell point
Integrated transmission apparatus according to claim Rukoto. 3. A first LAN communication device and a second LAN communication device.
LAN signal between communication device and first telephone signal transmission device
And a telephone communication signal between the first telephone signal transmission device and the second telephone signal transmission device.
An integrated transmission device for transmitting data in combination with the first LAN communication device and the second LAN communication device
Connected to the LAN via first and second transformers.
And two pairs of pairs of wires that are connected to the first transformer and that are connected to the first transformer.
A first intermediate level to which half the terminal voltage at one end is applied
From the point, the first telephone signal transmission device is connected to the two pairs of wires.
Superimposing the telephone communication signal from the first
A first superposition separation for separating said telephony signal from a bell point
Circuit, and each pair of the two pairs of wires connected to the second transformer.
The second intermediate level to which half the terminal voltage at the other end is applied
From the point, the second telephone signal transmission device is connected to the two pairs of wires.
Superimposing the telephone communication signal from the
Second superposition separation for separating said telephony signal from a bell point
Circuit, the first telephone signal transmission device is an exchange, the second telephone signal transmission device,
An integrated transmission device, wherein the telephone signal transmission device is an exchange terminal . 4. A first LAN communication device and a second LAN communication device.
LAN signal between communication device and first telephone signal transmission device
And a telephone communication signal between the first telephone signal transmission device and the second telephone signal transmission device.
A transmission device for transmitting data in combination with the first LAN communication device and the second LAN communication device;
Connected via a transformer to transmit the LAN signal
And wire pair two pairs, or the first telephone signal transmission device to each pair of said two pairs of wire pair
These telephone communication signals are superimposed as in-phase components and
A first separation weight for separating the signal of
Tatami circuit and the second telephone signal transmission device for each pair of the two pairs.
These telephone communication signals are superimposed as in-phase components and
A second separation weight for separating the signal of
And the first LAN communication device is connected via the first transformer.
And two individual Ls connected to one end of the two pairs of wires.
An AN communication device, wherein the second LAN communication device is
Connected to the other ends of the two pairs via a second transformer
Characterized by having two separate LAN communication devices
Integrated transmission device according to. 5. A first LAN communication device and a second LAN communication device.
LAN signal between communication device, telephone signal transmission device and telephone
It integrates and transmits telephone communication signals with the signal receiver.
Integrated transmission device, wherein the first LAN communication device and the second LAN communication device
Connected to the LAN via first and second transformers.
And two pairs of pairs of wires that are connected to the first transformer and that are connected to the first transformer.
A first intermediate level to which half the terminal voltage at one end is applied
From the telephone signal transmitter to the two pairs of wires
And a superimposing circuit for superimposing the telephone communication signal of each pair of the two pairs of pairs connected to the second transformer.
The second intermediate level to which half the terminal voltage at the other end is applied
The telephone communication signal is separated from the
A separation circuit that outputs the signal to the device , wherein the first telephone signal transmission device is an exchange, and
An integrated transmission device, wherein the telephone signal transmission device is an exchange terminal .