JP3460804B2 - Data transmission method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system which reduces ingress noise in a network and improves the quality of data transmission. In particular, in a local net, by using a guard band for an upstream high frequency modulated signal, noise from each terminal device in the local net is prevented from being superposed, and a transmission method for transmitting with reduced stream noise . INDUSTRIAL APPLICABILITY The present invention can be applied to the construction of a local area network that enables high-speed data communication such as the Internet in a CATV system that connects a CATV center to each home or each housing complex.

[0002]

2. Description of the Related Art Conventionally, there is an internet service using a CATV system. In this system, by connecting the center to the Internet, each terminal device can receive and transmit TV signals as well as data through the Internet. A conventional CATV system is shown in FIG. The CATV system includes a central device 22 provided in the CATV station 20, a trunk cable 25 connected to the central device 22, a repeater 30 provided at a predetermined portion of the trunk cable 25, and a branch cable 24 branched from the repeater 30. , Network 5 in the housing complex connected to the branch cable 24
0 and home network 40. Incidentally, C
The ATV station has an internet interface 21 through which the central unit 22 is connected.
It is connected to the.

The network 50 in the housing complex has an amplifier 51 and an amplifier 51 for amplifying and transmitting the propagated high frequency signal.
It is composed of a branching device 55 for branching the signal amplified by, a terminal device 52 connected to the branching device 55, and a TV receiving device 53. In addition, in the network 50 within the housing complex,
A plurality of terminal devices 52 and a TV receiver 53 are connected. The home network 40 is a branch / distributor 4 that branches / distributes the high-frequency signal propagated through the branch cable 24.
1. Terminal device 42 connected to branching / dividing device 41, TV
The receiving device 43 is included. In both systems, the terminal devices 52 and 42 have cable modems 54 and 4 for modulating / demodulating a high frequency signal into an Ethernet baseband signal or an Ethernet baseband signal into a high frequency signal.
It is equipped with 4. The terminal devices 52 and 42 are, for example, computer devices.

The transmission system used in this CATV system is a broadband transmission system in which a high frequency signal (RF signal) is frequency-multiplexed.
MHz-50MHz band, 70MHz-7 for downstream high frequency signals
The 70 MHz band is assigned and bidirectional communication is performed.
Specifically, for data transmission, for example, 33 MHz is selected for the upstream high frequency signal and 245 MHz is selected for the downstream high frequency signal.

The data signal input from the terminal device 52 is sent to the twisted pair line 56 in a predetermined communication format (10BASE-T). The data signal sent to the twisted pair line 56 is modulated by the cable modem 54, and the carrier of the frequency 33 MHz is modulated and sent to the central unit 22 of the CATV station 20. On the other hand, the central unit 22, which has received the upstream high frequency signal of 33 MHz, demodulates it by a cable modem (not shown) and sends the data signal to 10, for example, via the interface 21. In addition, the downlink carrier 245 MHz is modulated based on the data signal from 10 and the terminal device 52
To send to. Cable modem 54 of terminal device 52
Receives the 245 MHz high frequency signal and demodulates it to obtain the desired data. In this way, it is possible to send and receive data between arbitrary terminal devices via the Internet.

[0006]

However, the conventional C
In the ATV system, noise is superimposed on the upstream high-frequency signal from the subscriber's terminal devices 52, 42 to the CATV station 20 as indicated by the broken line, and these noises merge from the respective terminal devices to cause a noise in the housing complex. At the exit of the network 50, there is a large ingress noise. In this case, the quality of the communication line may deteriorate and the data may not be accurately transmitted to the central unit 22. In particular, the network 5 in the housing complex
At 0, the ingress noise level rises because of the large number of terminal devices, and in some cases, CATV internet service cannot be performed.

This influx of noise is caused by the network 5 in the housing complex.
In order to prevent the signal from being output to the outside of 0, it is also attempted to output the upstream data signal within the network 50 in the housing complex by using a part of the downstream frequency band where no noise is added. However, in this method, since the downlink band is used, it is necessary to have a special configuration in which the amplifier is bypassed only for signals in this band.

It is also possible to use a baseband system so that noise does not flow in, but since it is necessary to provide a bypass circuit for the amplifier and it is possible to arbitrarily send and receive data, the CATV There is also a problem that charge management by a service provider and confidentiality cannot be maintained.
There is also a problem in terms of data transmission speed. Furthermore, it is necessary to replace most of the devices that compose the television co-listening net with dedicated devices, which increases costs. Therefore, it has been impossible to provide inexpensive, highly convenient, and high-quality Internet services to all business establishments or all apartment houses where the CATV system has been introduced.

The present invention has been made in order to solve the above-mentioned problems, and by suppressing the ingress noise in the upstream band at the exit of a local net in an apartment house system or the like, high quality data transmission is possible. The purpose is to

[0010]

In order to solve the above-mentioned problems, the data transmission method according to claim 1 is a high frequency modulation signal in which a plurality of terminal devices capable of transmitting and receiving data are connected to each other. A data transmission method in a system consisting of a local net for performing data communication by means of and a transmission path to which the local net is connected, wherein a guard band in the local net is a band for transmitting an upstream high frequency modulated signal for data communication. That is the first feature. In addition, the local net is at the connection point with the transmission line,
A second characteristic is provided with a demodulation device for demodulating an upstream high frequency modulation signal of a guard band, and a modulation device for modulating the data signal demodulated by the demodulation device into an upstream high frequency modulation signal and transmitting it to the upstream band of the transmission path. And Furthermore, a low-group cutoff filter, which is connected in parallel to the series connection circuit of the demodulator and the modulator, cuts off signals in the guard band and the low group band and passes only signals in the down high group band, is provided. Is the third feature. The transmission line is a CATV transmission line, and the local net is an apartment house with scattered terminal devices.
A fourth feature is that the television co-listening net is provided in a predetermined area such as a building or factory and supplies a TV signal using a downlink signal.

The guard band is a band for separating the upstream signal band and the downstream signal band. The local net means a network in a building unit or a regional unit to which a large number of terminal devices are connected, and which part in the system is defined as a local net is free. Further, the local net is a wide band transmission system in which data communication is performed using a high frequency modulated signal and frequency multiplexing is performed. The local net is divided into a downlink band and an uplink band for bidirectional communication, and the downlink band is usually a TV.
Although a signal is output, a high frequency modulation signal for data communication may be used instead of a TV signal.
The data includes all video data, image data, audio data, and character data.

The frequency of noise superimposed from each terminal device capable of transmitting and receiving data to and from each other is mostly lower than 50 MHz. Therefore, in the present data transmission system, since the upstream high frequency modulated signal is transmitted using the guard band higher than 50 MHz in the local net, the superposition of noise is suppressed. As a result, the ingress noise of the noise superimposed on a large number of terminal devices in the local net is not transmitted to the transmission path, so that the data transmission quality is improved.

The use of the guard band for transmitting the upstream high frequency modulated signal is performed within the local net. Ingress noise mainly occurs in a local net to which many terminal devices are connected. Therefore, if a guard band is used for transmission of the upstream high frequency modulation signal at least in the local net, the ingress noise can be efficiently reduced. Of course, it is possible to extend the use of the guard band to the transmission line to which the local net is connected.

Further, according to the second feature, the demodulation device temporarily demodulates the uplink high frequency modulated signal into a data signal. By this process, even if upstream ingress noise is included, the ingress noise is completely eliminated from being transmitted to the transmission line, and the data transmission quality on the transmission line is improved. Here, the data signal is, for example, a baseband data signal such as a binary digital signal, or a data signal of Ethernet specification. The modulator modulates the data signal demodulated by the demodulator into an upstream high frequency modulated signal and sends it to the transmission path. This completely eliminates the ingress noise in the local net, so that the ingress noise will not flow out to the transmission line. This improves the data transmission quality definitive transmission path. The downlink signal received from the transmission line may be transmitted to the local net as it is, or may be demodulated and modulated as described below and transmitted. Also, the third
Due to the above feature, it is possible to provide a bypass path that passes only the down high group frequency of the TV signal and the data signal and blocks the low group band and guard band frequencies. Also, CAT
In the V transmission line, the downlink band is used for the TV signal and the uplink band is used for the high frequency data signal. Therefore, due to the fourth feature, the influence of the ingress noise is particularly large in the low group upstream band. However, according to the present system, since the guard band is used for transmitting the upstream high frequency modulated signal, the ingress noise is reduced. Hardly mixed. When a demodulator, a modulator, and a modulator / demodulator are used, even if ingress noise is mixed,
The ingress noise is completely eliminated and sent to the transmission line. Therefore, the quality of data communication can be greatly improved.
In the local net having this feature, the TV signal exists in the downstream band, and the upstream band is a band for data communication.

A data transmission system according to a second aspect of the present invention is the same as the second feature of the data system according to the first aspect, and further includes a demodulator for demodulating an upstream high frequency modulated signal of a guard band and a downstream signal of a transmission line. A first modulator / demodulator including a modulator that modulates the data signal obtained from the above into a downlink high-frequency modulated signal and transmits it to a local net is provided at the connection point. In lieu of the characteristics, the data signal demodulated by the first modulator / demodulator is modulated into an upstream high frequency modulated signal and transmitted to the transmission line, and the downstream high frequency modulated signal received from the transmission line is demodulated into a data signal to obtain the first modulator / demodulator. The second modulation / demodulation device for outputting to is provided at the connection point. Further, in lieu of the third feature of claim 1, the signals of the guard band and the low group band, which are connected in parallel to the series connection circuit of the first modulator / demodulator and the second modulator / demodulator, are blocked, A series connection circuit of a low group cutoff filter that passes only a signal in the high group band and a high group data band cutoff filter that cuts down a downlink high frequency modulated signal which is a data signal before demodulation is provided. In order to eliminate upstream combined noise from the local net, use of a guard band, or use of a guard band and a demodulator at the connection point between the local net and the transmission line as in claim 1 It is enough. This feature is characterized in that the demodulated data signal of the downlink signal on the transmission path is re-modulated and transmitted as a downlink high frequency modulated signal to the local net.
There is an effect of noise reduction on the downlink signal. Further, the first modem is a so-called cable modem in, for example, a CATV system, and has an advantage that existing equipment can be used as it is.

Further, according to the second aspect of the invention, a second modulation / demodulation device is provided in connection with the first modulation / demodulation device. As a result, when the transmission line is a wide band high frequency transmission line such as a CATV system, the upstream high frequency modulation signal of the local net is demodulated and re-modulated and is sent to the transmission line as the upstream high frequency modulation signal. Is demodulated and re-modulated and transmitted to the local net as a downlink high frequency modulated signal. In this way, the data signal has the noise removed in both the up and down directions. Further, both the first modulation / demodulation device and the second modulation / demodulation device are so-called cable modems in the CATV system, and there is an advantage that existing equipment can be used as they are. Furthermore, a low group cutoff filter that cuts off signals in the guard band and the low group band, and passes only signals in the downlink high group band,
Since a series connection circuit with a high group data band cutoff filter that blocks the downlink high frequency modulation signal before demodulation, which is a data signal, is provided, only the downlink high group frequency other than the data signal passes, and the low group band and the guard band It is possible to provide a bypass path for blocking the downstream high frequency modulation signal which is the frequency and the data signal before demodulation, so that the re-modulated data signal and the data signal before demodulation do not collide.

The format of the data signal obtained by demodulating the high frequency modulated signal is, for example, a binary baseband data signal or an Ethernet specification data signal as described above. Here, the Ethernet specification data signal refers to a signal to which line processing information and the like necessary for transmission and reception between modems or between central devices are added. Further, the frequency band of the upstream high frequency modulation signal of the local net and the frequency band of the upstream high frequency modulation signal of the transmission line may or may not be equal. That is, even in the transmission line, if a bypass circuit is added to the repeater, it is possible to transmit the upstream high frequency modulation signal using the same guard band. Normally, the upstream band is used on the transmission path. In this case, the existing equipment in the existing system can be used as it is, and the transmission method is one in which only ingress noise is removed.

Similarly, the frequency band of the downlink high frequency modulation signal on the transmission line and the frequency band of the local net downlink high frequency modulation signal may or may not be equal. In the case of equalization, in the existing system, only the first modulation / demodulation device and the second modulation / demodulation device are provided at the connection point between the local net and the transmission line, and it is not necessary to provide the terminal device with other special equipment. The first modulator / demodulator and the second modulator / demodulator are C
It also includes a so-called intelligent modem that is equipped with a PU and can be controlled from the center.

In the data transmission system according to the third aspect, the transmission line is a data transmission line, and at the connection point of the local net, the data signal demodulated by the first modulator / demodulator is input and modulated and output to the transmission line. A router or a terminal adapter for receiving the downlink signal of the transmission path, converting it into a data signal, and outputting it to the first modulator / demodulator is further provided. According to this configuration, the transmission path is, for example, IS
It is possible to connect the DN transmission line and other data transmission lines to the local net. Also in this case, upstream ingress noise in the local net is eliminated, and the upstream data signal is transmitted to the data transmission path. Therefore, the data transmission quality is improved.

In the data transmission system according to the fourth aspect, the transmission line is a CATV transmission line, and the local net is arranged in a predetermined area such as an apartment house, a building or a factory in which terminal devices are scattered, and the downlink signal is transmitted. It is characterized in that it is a television co-listening net for supplying a TV signal by using it. In the CATV transmission path, the downlink band is used for TV signals and the uplink band is used for high frequency data signals. In particular, although the influence of ingress noise in the low group upstream band is large, according to the present system, since the guard band is used for transmitting the upstream high frequency modulation signal, the ingress noise hardly mixes. Further, when the demodulation device, the modulation device and the modulation / demodulation device are used, the ingress noise is completely eliminated and sent out to the transmission line even if the ingress noise is mixed. Therefore, the quality of data communication can be greatly improved. In the local net having this feature, the TV signal exists in the downstream band, and the upstream band is a band for data communication.

The data transmission system according to the fifth aspect is characterized in that the frequency band of the downlink high frequency modulated signal is 7 channels or 8 channels of the frequency band set in the CATV transmission line. According to the television standard, 7 or 8 channels of the frequency band of the TV signal have a common band of 2 MHz and cannot be used at the same time, and either one of them is an empty band. Its width is 4 MHz, and its empty band is used as a band for data signals. In the present invention, since the free band is used, the band utilization efficiency is improved.

A data transmission method according to claim 6 is CA
The center of the TV transmission line is connected to the Internet, and the signal obtained by demodulating the upstream high frequency modulated signal received from the transmission line is transmitted to the Internet, and the signal received from the Internet is modulated into the downstream high frequency signal and sent to the transmission line. It is characterized by doing. With this configuration, a large number of terminal devices connected to the local network can be connected to the Internet via the CATV transmission path, and high quality data communication can be performed. Moreover, a terminal device having a cable modem for CATV can realize high-quality data communication without additional equipment simply by providing this device at the connection point between the local net and the transmission path. Also,
According to a seventh aspect of the present invention, there is provided a data transmission method, wherein an upstream high frequency modulated signal of a guard band is transmitted by bypassing the amplifier when the amplifier exists in the local net. When the bidirectional amplifier is provided in the local net, the upstream high frequency modulation signal of the guard band cannot pass. Therefore, if the amplifier is bypassed by, for example, a branching device and a bandpass filter, the data from the terminal device can be transmitted in the upstream direction if the guard band is used only for upstream data transmission. If the band is used for bidirectional data communication, bidirectional transmission is possible.

[0023]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. The present invention is not limited to the examples below. First Embodiment In this embodiment, the local net is an existing TV co-listening net installed in each home or apartment house.
This realizes a LAN.

FIG. 1 shows a CAT to which the transmission system of the present invention is applied.
2 shows a V system. The figure is a schematic configuration diagram. The CATV system of this embodiment includes a central device 22 provided in a CATV station 20, an optical fiber cable 23 connected to the central device 22, and a photoelectric converter 2 for converting an optical signal into an electric signal.
3a, trunk cable 2 extended from photoelectric converter 23a
5, the repeater 3 provided at a predetermined portion of the main cable 25
0, a branch cable 24 wired from the repeater 30, a data transmission device 60 connected to the branch cable 24 to reduce the ingress noise, and an in-house network 50 (local network) that is a private network connected to the data transmission device 60. ) And a home network 40 (local net). The transmission line is an optical fiber cable 23,
It means a line for transmitting a signal, which includes a trunk cable 25, a branch cable 24, a repeater, and the like. In addition, CATV station 2
0 is connected to 10 via the Internet interface 21, and is capable of bidirectional communication with terminal devices in other areas.

The structures of the home network 40 and the housing complex network 50 are the same as those of the conventional example shown in FIG. In FIG. 1, a data transmission device 60 is provided at a connection point between the transmission line and the local net, that is, a connection point (exit) between the branch cable 24 and the network 50 in the housing complex. The data transmission device 60 is a device that demodulates a guard band upstream high frequency modulated signal into a data signal, modulates the data signal into a 33 MHz high frequency modulated signal in the upstream band of the transmission line, and transmits the signal to the transmission line.

FIG. 2 shows a frequency band arrangement of the CATV system. The frequency band allocation of the CATV system is 10
Up to 50 MHz upstream band, 70 to 770 MHz
Are separated into downstream bands. The upstream band is mainly used for communication to the station side, and the downstream band is used for TV signal and data communication to the terminal device side. Here, 50MHz-70MHz
Is a guard band for separating the upstream band and the downstream band. Guard band A in the transmission band of the upstream high frequency modulation signal
Is used to reduce the ingress noise in the local net. As described in the conventional example, the upstream high frequency modulation signal using the upstream signal band from the terminal device 52 is accompanied by a lot of ingress noise. Particularly, in the network 50 in the housing complex, the number of terminal devices 52, television receivers, and the like is large, so that the ingress noise is significantly increased. Most of the frequency of this ingress noise from the terminal device 52 exists in the upstream signal band of 10 to 50 MHz. Therefore, in this embodiment, a guard band (50 to 70 MHz) is used for transmission of the upstream high frequency modulated signal in order to avoid the band in which the ingress noise is superimposed. Less than,
In the present embodiment, the carrier frequency of the guard band upstream high frequency modulation signal is set to 60 MHz.

As the transmission band of the downlink data signal, T
188 where 7 channels or 8 channels are arranged by V signal
An empty band B is used from the band of ˜198 MHz.
If 8 channels are used, the 4 MHz band of 188 to 192 MHz is vacant, so this band is used as the transmission band of the downstream data signal. On the contrary, if 7 channels are used, the 4 MHz band of 194 to 198 MHz is vacant, and this band can also be used as the transmission band of the downstream data signal. Hereinafter, in the embodiment, it is assumed that the downlink high frequency modulated signal is transmitted using the 4 MHz band of 188 to 192 MHz. Its carrier is 19
Set to 0 MHz.

The structure and operation will be described below with reference to FIGS. 3, 4, and 5. As shown in FIG. 3, the data transmission device 60 is arranged at the exit (entrance) of the network 50 in the housing complex. The data transmission device 60 is a splitter / distributor 64 for branching / distributing the upstream high frequency modulation signal of the guard band sent from the terminal device 52, and a first modulation / demodulation device for temporarily converting the upstream high frequency modulation signal into an Ethernet baseband signal. A lower cable modem 62, an upper cable modem 61 that is a second modulator / demodulator that modulates a carrier wave based on the converted Ethernet baseband signal to make an upstream high frequency modulation signal again, and a branch cable that reconverts the upstream high frequency modulation signal. Branch / Distributor 6 for sending to 24
6. A low group (upstream band) cutoff filter 65 arranged between the branch / divider 64 and the branch / divider 66. The low group cutoff filter 65 is a filter that passes only the downstream high group frequency and cuts off the low group band and guard band frequencies.

The data signal input from the terminal device 52, which is a computer device, has a predetermined communication format (10BASE).
-T) is transmitted to the twisted pair wire 56. The Ethernet-specific data signal sent to the twisted pair line 56 is input to the cable modem 54, and a modulator in the cable modem modulates a carrier wave having a frequency of 60 MHz, and a high frequency modulation signal that is modulated as a guard band signal is sent out. It

The transmitted upstream high frequency modulated signal is branched /
The lower cable modem 62 is reached via the distributor 55, the amplifier 51, and the branching / dividing device 64. The upstream high frequency modulation signal input to the lower cable modem 62 is temporarily demodulated into an Ethernet baseband signal. By this demodulation, even if the ingress noise is superimposed on the upstream high frequency modulation signal of the guard band, the ingress noise is removed. After that, the host cable modem 61 again modulates the carrier wave of the frequency of 33 MHz based on the demodulated data and sends it to the branching / distributing device 66 and the branching cable 24 as an upstream high frequency modulation signal. In this way, in the network 50 in the housing complex, since the upstream high frequency modulated signal for the data signal is transmitted using the guard band, it is not affected by the noise superimposed on each terminal device. Even if the ingress noise is superimposed on the guard band, the ingress noise is completely removed by demodulation and remodulation.

Since the high frequency modulated signals of the upstream band and the guard band output from the branching / distributing device 64 are blocked by the low group blocking filter 65 and are not sent to the branching cable 24 side, upstream coupling noise is generated. Is not output to the branch cable 24.

FIG. 4 shows details of the lower cable modem 62 and the upper cable modem 61. Lower cable modem 6
Reference numeral 2 denotes a demultiplexer 62a that demultiplexes the guard band 60 MHz upstream high frequency modulation signal, a demodulator 62b that demodulates the demultiplexed high frequency modulation signal, and a computer that inputs the demodulated binary signal baseband data signal. An Ethernet interface 6 for transmitting an Ethernet baseband signal based on a baseband data signal which is a binary signal transmitted from the device 62d and the computer device 62d.
2e and a modulator 62c for the downlink data signal. The modulator 62c is a modulator that modulates a carrier of 190 MHz based on the baseband data signal obtained via the Ethernet interface 62e and the computer device 62d, and sends it as a downlink high frequency modulated signal in the downlink direction.

The host cable modem 61 has an Ethernet interface 61e for inputting an Ethernet baseband signal and converting it into a binary baseband signal, and a computer device 6 for inputting a binary baseband signal.
1d, a modulator 61c that modulates a 33 MHz carrier based on a binary baseband signal output from the computer device 61d and sends a high frequency modulation signal, a demultiplexer 61a that sends the high frequency modulation signal to the branch cable 24, and The demodulator 61b demodulates the downlink high frequency modulated signal. The demodulator 61b receives the 19th signal from the demultiplexer 61a.
It is a device that demodulates a downlink high frequency modulation signal in the 0 MHz band into a baseband signal of a binary signal and outputs it to the computer device 61d.

Next, the operation of the lower cable modem 62 and the upper cable modem 61 with respect to the upstream high frequency modulated signal will be described. When the upstream high frequency modulation signal including the ingress noise is input to the lower cable modem 62 having the above configuration, the duplexer 62a separates the upstream high frequency modulation signal of the guard band and inputs to the demodulator 62b. If the modulation method is QPSK phase modulation, the demodulator 62b performs phase demodulation and sends it to the computer device 62d. The demultiplexer 62a separates the guard band band and the downlink high frequency modulated signal in the 190 MHz band. Computer device 62d
Further converts the data into predetermined code data and sends the data to the Ethernet interface 62e. The Ethernet interface 62e converts the data into an Ethernet baseband signal and sends it to the upper cable modem 61 via the twisted pair line 63. As described above, even if noise is superimposed on the guard band, the ingress noise is removed by this conversion.

Next, in the host cable modem 61, the computer device 61d and the modulator 61c modulate the upstream baseband signal input from the Ethernet interface 62e into an upstream high frequency modulation signal of 33 MHz band, and the duplexer. It is sent to the branch cable 24 via 61a. In this way, demodulation and modulation are performed by the actions of the lower cable modem 62 and the upper cable modem 61, and the ingress noise is removed from the upstream high frequency modulated signal.

On the other hand, with respect to the downlink high frequency modulation signal on the transmission line, only the downlink high frequency modulation signal of the frequency band 190 MHz in the downlink band is demultiplexed by the demultiplexer 61a and is input from the branch cable 24 to the upper cable modem 61. It The demodulation and the modulation at this time are executed by a route that is completely opposite to the upstream high frequency signal. That is, the demodulator 61b of the upper cable modem 61 demodulates the downlink high frequency modulated signal of the transmission path into a binary baseband signal, and the lower cable modem 6
The second modulator 62c modulates the downlink high frequency modulation signal having a frequency band of 190 MHz and sends it to each terminal device 52. At this time, even if noise is included in the downlink high frequency modulation signal sent from the central unit 22, the noise is removed by demodulation and modulation.

The TV input from the branch cable 24
The signal is output from the branch / divider 66 of FIG.
5 is output. This TV signal passes through the low group cutoff filter 65, is amplified by the amplifier 51, and is propagated to each TV receiving device 53. Therefore, if the TV receiver 53 is connected to the branch / divider 55, a TV signal is received. Also, if the terminal device 52 is connected to the branching / distributing device 55, data communication becomes possible as described above. Further, the downlink high frequency modulated signal of the frequency band 190 MHz is blocked by the high group data band blocking filter 67 and is not transmitted any further downstream. Therefore, the downlink high frequency modulation signal of the frequency band 190 MHz re-modulated by the lower cable modem 62,
Frequency band 190MHz before demodulation from branch cable 24
There is no collision with the downstream high frequency modulation signal of.

As described above, the data transmission system of the present invention is
Existing CATV wiring network, especially network 5 in apartments
It is only necessary to provide the data transmission device 60 at the 0 exit. Therefore, the LAN can be constructed at an extremely low cost.

In the above embodiment, the low group cutoff filter 6
Instead of 5, a unidirectional amplifier that amplifies only the downstream high group band signal may be provided. In this embodiment, since the downlink high frequency signal received from the transmission line is demodulated, the CATV station 2
The control signal from 0 can also be received, and various controls for the data transmission device 60 can be performed from the CATV station 20. In the above embodiment, the empty band of the 7th and 8th channels of the TV signal is used as the band of the downlink data signal, but any band may be used as this band.

As described above, in the local net, by setting the guard band as the transmission band of the upstream high frequency modulated signal, it is possible to prevent the influx of noise. If the amplifier is not used in the local net, it is possible to use the existing TV co-listening system by changing only the carrier frequency of the modulator of the terminal device without using any special additional device. it can. Moreover, as the local net becomes larger, there are bidirectional amplifiers in it.
In this case, it is necessary to add a bypass circuit to the conventional bidirectional amplifier to make a detour. A bidirectional amplifier 70 is shown in FIG. The bidirectional amplifier 70 includes a conventional bidirectional amplifier 51,
Divider 71, amplifiers 73 and 77, bandpass filter 7
6 and a bypass circuit 78 including a coupler 75. Here, the bandpass filter 76 is 50 to 70M.
It has the property of passing only high-frequency signals in the guard band of Hz.

The high frequency signal in the upstream signal band of 10 to 50 MHz is amplified by the amplifier 72, and the downstream signal band of 70 to 770 MHz is amplified by the amplifier 73 and propagates in each direction. Further, the upstream high frequency modulated signal of the guard band of 50 to 70 MHz is supplied to the bypass circuit 78.
Is branched, amplified, and propagated in the upstream direction. With such a configuration of the bidirectional amplifier, it is possible to provide a data transmission system in which the local net is a large-scale LAN having the bidirectional amplifier.

(Second Embodiment) A second embodiment system will be described. The present embodiment is characterized in that the data transmission device 60 in FIG. 1 is configured as shown in FIG. That is, as shown in FIG. 6, the lower cable modem 62 and the upper cable modem 61 in FIG.
Instead of this, a data transmission device 600 is configured by a bandpass filter 67 that passes only the guard band frequency, a frequency converter 68, and an amplifier 69. With this configuration, the upstream high frequency modulation signal of the guard band of 60 MHz is separated by the band pass filter 67, and the frequency converter 68
Thus, the signal is frequency-converted into a signal of 33 MHz in the upstream band of the transmission line and transmitted to the transmission line. Noise in the band of 10 to 50 MHz from the local net is detected by the low group cutoff filter 65.
Is cut off by. On the other hand, the signal in the high group downlink band passes through the low group cutoff filter 65 and is propagated to the local net side. As described above, the frequency conversion may be performed and the data may be transmitted to the transmission path without demodulation and modulation as in the first embodiment. Also in this case, in the local net, since the guard band in which noise is hard to be superimposed is used in the transmission band of the upstream data signal, the ingress noise is prevented from being transmitted to the transmission line.

(Third Embodiment) The third embodiment will be described below. The present apparatus arranged at the connection point between the transmission line and the local net may be configured as shown in FIG. In FIG. 7, the branch cable 24 side is the transmission path A,
The network 50 in the housing complex is displayed as the local net B. The transmission line A and the local net B are connected by a demultiplexer 84 and a branching device 83. A bandpass filter 85 for extracting only the guard band frequency, a demodulator 81, and a modulator 82 are arranged in a circuit on the upstream low group band side including the guard band, and a circuit on the downstream high group band side is through. It has become.

With such a configuration, the upstream high frequency modulated signal of the guard band from the local net B is temporarily demodulated by the demodulator 81 into a binary baseband signal, and is again modulated by the modulator 82. Upstream band, for example, 33
It is output after being modulated into a high frequency modulation signal in the frequency band of MHz. Then, noise in the band of 10 to 50 MHz in the local net is blocked by the demultiplexer 84 and is not transmitted to the transmission path A.

On the other hand, the high frequency modulated signals which are the TV signal and the data signal of the downlink high group inputted from the transmission line A side are transmitted from the transmission line A to the local net B side by the demultiplexers 84 and 83. Therefore, it becomes possible to receive TV signals and perform data communication with existing CATV local network equipment. Also in this embodiment, the upstream high frequency modulated signal from the local net B is once demodulated into a baseband signal, modulated again into the upstream high frequency modulated signal and transmitted to the transmission line A. Similarly, it is possible to eliminate upstream ingress noise.

In this embodiment, if the CATV station 20 controls this device, it controls the demodulation device 81 and the modulation device 82 by demodulating the downlink signal on the transmission path A and extracting the data signal. A device may be provided.

(Fourth Embodiment) The fourth embodiment will be described below. In this embodiment, the transmission line A is a data transmission line such as ISDN. The CATV transmission line 101 and the local net B are connected by the distributor 100, and the CATV transmission line 101 and the first modulation / demodulation device 90 are connected to the distribution terminal. The first modulator / demodulator 90 includes a demultiplexer 94, a demodulator 92, a modulator 93, and a CPU 91.
The CPU 91 is connected to the router 95 connected to the ISDN transmission line.

The upstream high frequency modulation signal of the guard band output from the local net B passes through the low group terminals of the distributor 100 and the demultiplexer 94, is input to the demodulator 92, and is a baseband signal of a binary signal. Demodulated to. Then, the signal is input to the CPU 91 and output to the ISDN transmission line via the router 95. In this way, the data is output to the Internet via the ISDN transmission line. On the other hand, the data signal from the Internet is received by the router 95, is output to the CPU 91, is modulated by the modulator 93 into a high-frequency downlink high-frequency modulation signal, and passes through the duplexer 94 and the distributor 100.
It is output to the local net B. In this way, the ingress noise can be removed from the data signal output from the local net B to the transmission line A. Also, the local net B is CAT
Bidirectional communication is also possible with respect to the V transmission path 101.

(Modifications) Although one embodiment representing the present invention has been described above, various modifications can be considered.

In the above embodiment, the local net B is assumed to be a TV co-listening net of an apartment house, a factory, a hospital, a school, etc. However, if the two-way communication by the low group / high group separation, the TV signal is particularly It may be a transmission line (LAN) with no high-frequency transmission. In the above embodiment, the carrier waves of different frequencies are used for the upstream data and the downstream data when transmitting / receiving the data on the local net, but the carrier waves of the same frequency in the guard band may be used. This is a method in which communication is performed on the same channel by using idle time. It can be applied to small LANs that do not require an amplifier.

It is also possible to allocate an empty channel of a TV signal to the downlink high frequency modulated signal. Further, in the above embodiment, the transmission line is the CATV transmission line or the ISDN transmission line, but any transmission line that can be connected to a LAN such as OCN may be used. Further, other transmission paths made of other media such as broadcast waves including terrestrial broadcasting and satellite broadcasting, microwaves, and optical space transmission may be used.

[Brief description of drawings]

FIG. 1 is a block diagram of a CATV system to which a data transmission method according to a first embodiment of the present invention is applied.

FIG. 2 is an explanatory diagram of frequency bands used in the data transmission system according to the first embodiment.

FIG. 3 is a configuration diagram of a converter and a network in an apartment house according to the first embodiment.

FIG. 4 is a configuration block diagram of a data transmission device according to the first embodiment.

FIG. 5 is a block diagram of a bidirectional amplifier including a bypass circuit according to the first embodiment.

FIG. 6 is a block diagram of a data transmission device according to a second embodiment.

FIG. 7 is a configuration diagram showing a system using a modulation device and a demodulation device according to a third embodiment.

FIG. 8 is a configuration diagram showing a system capable of connecting to an ISDN transmission line according to a fourth embodiment.

FIG. 9 is a block diagram of a CATV system to which a transmission method using a conventional cable modem is applied.

[Explanation of symbols]

10 Internet 20 CATV stations 22 Central device 23 Optical fiber cable 24 branch cable 25 trunk cable 30,70 repeater 40 home network 41,55 Branch / Distributor 42,52 Terminal device 43,53 TV receiver 44,54 Cable modem Network in 50 housing complex 51 amplifier 60 frequency converter 61 Upper cable modem 62 Lower cable modem 64, 66 branch / distributor 65 Low group cutoff filter 70 Bidirectional amplifier 81,92 Demodulator 82,93 Modulator

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) H04N ^7/ 14-7/173

Claims (7)

(57) [Claims] 1. A data transmission method in a system comprising a local net for connecting a plurality of terminal devices capable of transmitting and receiving data to each other and performing data communication by a high frequency modulation signal, and a transmission line to which the local net is connected. The transmission path is a CATV transmission path, and the local net is arranged in a predetermined area such as an apartment house, a building, a factory, etc., in which the terminal devices are scattered, and a TV signal is supplied by using the down signal. It is a co-listening net, and in the local net, a guard band is a band for transmitting an upstream high frequency modulated signal for data communication, and the local net is an upstream high frequency of the guard band at the connection point with the transmission path. A demodulation device for demodulating the modulated signal, and a data signal demodulated by the demodulation device is modulated into an upstream high frequency modulated signal and Modulator for transmitting to the band, connected in parallel to the serial connection circuit of the demodulator and the modulator, cut off the signals of the guard band and low group band, only the signal of the downlink high group band A data transmission method comprising: a low group cutoff filter that passes through. 2. A data transmission method in a system comprising a local net for connecting a plurality of terminal devices capable of transmitting and receiving data to each other and performing data communication by a high frequency modulation signal, and a transmission line to which the local net is connected. In the local net, a guard band is a band for transmitting an upstream high frequency modulated signal for data communication, and the local net demodulates the upstream high frequency modulated signal in the guard band at the connection point with the transmission line. And a demodulator that modulates a data signal obtained from a downlink signal of the transmission path into a downlink high frequency modulated signal and transmits the downlink high frequency modulated signal to the local net, and demodulated by the first modulator / demodulator. Modulated high-frequency modulated signal to the transmission line and transmitted to the transmission line, and the down-frequency modulated signal received from the transmission line A second modulation / demodulation device that demodulates into a data signal and outputs the data signal to the first modulation / demodulation device; and the guard band connected in parallel to a series connection circuit of the first modulation / demodulation device and the second modulation / demodulation device. Series connection circuit of a low group cutoff filter that cuts off signals in the low group band and passes only signals in the downlink high group band, and a high group data band cutoff filter that cuts down downstream high frequency modulated signals that are data signals before demodulation A data transmission method characterized by being provided. 3. A data transmission method in a system comprising a local net for connecting a plurality of terminal devices capable of transmitting and receiving data to each other and performing data communication by a high frequency modulation signal, and a transmission line to which the local net is connected. The transmission line is a data transmission line, in the local net, a guard band is a band for transmitting an upstream high frequency modulation signal for data communication, the local net, at the connection point with the transmission line, A first modulator / demodulator including a demodulator that demodulates an upstream high-frequency modulated signal of the guard band, and a modulator that modulates a data signal obtained from a downstream signal of the transmission path into a downstream high-frequency modulated signal and transmits the downstream high-frequency modulated signal to the local net. At the connection point of the local net, the data signal demodulated by the first modulator / demodulator is input to the transmission line. A data transmission system comprising a router or a terminal adapter that modulates and outputs, receives a downlink signal on the transmission path, converts the data into a data signal, and outputs the data signal to the first modulation / demodulation device. 4. The transmission line is a CATV transmission line, and the local net is an apartment house, a building, or the like in which the terminal devices are scattered.
The data transmission system according to claim 2, wherein the data transmission system is a television co-listening net that is provided in a predetermined area such as a factory and supplies a TV signal using the downlink signal. 5. The frequency band of the downlink high frequency modulation signal is
The data transmission system according to claim 4, wherein the channel is 7 channels or 8 channels of a frequency band set in the CATV transmission path. 6. A center of the CATV transmission line is connected to the Internet, and a signal obtained by demodulating an upstream high frequency modulated signal received from the transmission line is transmitted to the Internet,
6. The data transmission system according to claim 4, wherein a signal received from the Internet is modulated into a downlink high frequency signal and sent out to the transmission line. 7. The upstream high frequency modulated signal of the guard band is transmitted by bypassing the amplifier when the amplifier exists in the local net. The data transmission method according to item 1.