JP3655739B2 - Home data communication method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data communication system and method, and more particularly to a home data communication system and method using a personal computer (hereinafter abbreviated as a personal computer) in a home.
[0002]
[Prior art]
Conventionally, when data communication is to be performed in a home, an analog telephone line or a cable used for a LAN is routed to a necessary place in the home. In order to carry out personal computer communication and Internet access, communication is usually performed via an analog modem using a telephone line, or via an ISDN line using a terminal adapter for ISDN and a data line terminator (DSU). doing. On the other hand, recently, there is an example in which a home power line is used for a network.
[0003]
FIG. 8 shows an example of a conventional home data communication system. In this case, in order to perform data communication between the personal computer 1 in the first floor left room and the data communication terminal 2 in the second floor right room, wiring work is performed from the first floor left room to the second floor right room. In particular, since this work is often an additional work, it tends to be routed around the house with the wiring 13 exposed.
[0004]
FIG. 9 is a diagram showing another example of a conventional home data communication system, showing a system for performing personal computer communication and Internet access. The telephone modular connector 8 is often installed at one location in the house. Data input via a telephone line is input to the personal computer 1 through an analog modem (second modem) 9. At this time, since the room in which the personal computer 1 and the second modem 9 are installed is usually a room different from the room in which the telephone line modular connector 8 is provided, the wiring 13 is routed between them.
[0005]
[Problems to be solved by the invention]
The first problem in the above-described conventional home data communication system is that, in order to perform data communication in the home, the wiring must be routed in the house, and if this wiring is exposed, the landscape In addition, once this wiring is laid, the mental discomfort of staying in an environment where the wiring is craving must continue. The reason is that a telephone line and a LAN cable have been newly laid as a medium for a data transmission path (network).
[0006]
The second problem is that once this network is laid, the data communication terminal device cannot be moved or is difficult. The reason is that the device can be used only at the place where the wiring is routed to configure the network.
[0007]
A third problem is that the data transfer rate does not increase when the power supply line is used. The reason is that the power supply line has a small band that can be used for data transfer, and the voltage fluctuation in the 100V electric wire also has an adverse effect.
[0008]
The fourth problem is that it is necessary to route wiring from an analog modem, DSU, or terminal adapter to an individual room with a personal computer when performing personal computer communication or Internet access at home. The reason is that the telephone and ISDN modular connectors are often located in one place in the house, close to the entrance.
[0009]
The purpose of the present invention is to eliminate the routing of the wiring from the analog modem to the individual room when performing personal computer communication or Internet access in the home, and that it is possible to live in the same environment as before even after wiring. It is another object of the present invention to provide a home data communication system and method that can be implemented and that can move a place where a data communication terminal such as a personal computer is installed even after a home network is realized.
[0010]
[Means for Solving the Problems]
The home data communication system of the present invention includes a modem that uses an unused frequency region of a television for data modulation / demodulation, and is between data communication terminal devices that can move to any room having an antenna terminal in the home. Data communication is performed through the modem and a television antenna cable wired in the house .
[0011]
Also, the home data communication system of the present invention is capable of moving to any room having a television antenna cable wired to the antenna cable termination means of each room in the home and the antenna cable termination means, and transmitting and receiving data. And a first modem that performs modulation / demodulation of data to an unused frequency of the television for transmitting and receiving data through the antenna cable.
[0012]
The first modem includes a data terminal interface unit that interfaces with a data communication terminal device according to the RS232C standard, a modulator that modulates data received by the data terminal interface unit to an unused frequency, and outputs the modulated data. A band eliminator that receives the output from the receiver and removes frequency components other than the modulated data, an antenna cable interface unit for transmitting data through the antenna cable of the television, and demodulates the data received by the antenna cable interface unit And a demodulator for outputting to the data terminal interface unit.
[0013]
In addition, the home data communication system of the present invention may include a second modem that is provided between a modular connector for terminating an analog telephone line and the first modem, and that modulates and demodulates signals. Or a home data line terminator connected to a modular connector for terminating an ISDN line, and a terminal adapter for ISDN provided between the home data line terminator and the first modem It is also good.
[0014]
In the first home data communication method of the present invention, when data from a telephone line is received by an analog second modem, the received data is output to the first modem, and the television is not connected by the first modem. The frequency component other than the data is modulated to the frequency to be used, the frequency component other than the data is removed, the signal is input to the other first modem through the television antenna cable wired in the house, and the data received by the other first modem is demodulated When data is output to a data communication terminal device that can be moved to an arbitrary room having an antenna terminal in the house, and the data from the data communication terminal device is received by the other first modem, the received data is transmitted to the television set. Modulates to an unused frequency, removes frequency components other than the data, and outputs to the first modem through the antenna cable. Therefore demodulates the received data input to the second modem, and to output to the telephone line.
[0015]
In the second home data communication method of the present invention, when data from the ISDN line is received through the home data line terminator and the terminal adapter, the received data is output to the first modem, and the first modem transmits the television data. Is modulated to an unused frequency, frequency components other than the data are removed, and it is input to the other first modem through a television antenna cable wired in the house, and the data received by the other first modem is received. When the data received from the data communication terminal device is received by the other first modem, the received data is demodulated and output to a data communication terminal device that can move to an arbitrary room having an antenna terminal inside the house. Is modulated to an unused frequency by the TV to remove frequency components other than the data, and the first module is passed through the antenna cable. The data received by the first modem is demodulated and output to the ISDN line through a terminal adapter and the home data line terminator.
[0016]
According to the present invention, a personal computer is provided with a modem that uses an unused frequency region of a television for data modulation / demodulation, and performs data communication between data communication terminal devices through a television antenna cable wired in the home. By using an interface common to the interface and other data communication terminal interfaces, for example, RS-232C, a home network configuration using one type of modem becomes possible. In addition, since the antenna cable outlet serves as a data outlet, data communication is possible wherever the antenna cable outlet is located, and the equipment of the data communication terminal can be moved. Further, the antenna cable can be connected to a public line such as a telephone line or an ISDN line through a modem to perform personal computer communication or Internet access.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a first embodiment of a home data communication system according to the present invention. The home data communication system includes a personal computer 1 and a data communication terminal 2 for transmitting and receiving data, a television antenna cable (not shown) wired to an antenna terminal 3 for terminating an antenna cable in each room in the home, And a first modem 4 for performing modulation / demodulation of data to an unused frequency of the television in order to transmit and receive data between the personal computer 1 and the data communication terminal 2 through the antenna cable. The television 5 is connected to the antenna terminal 3.
[0018]
Referring to FIG. 2 showing the first modem 4 in FIG. 1, the first modem 4 for data conversion includes an RS-232C I / F unit 41 that interfaces with a data communication terminal according to the RS-232C standard, and an RS -232C I / F unit 41 modulates the data received by the TV to an unused frequency and outputs it, and band eliminator 43 receives the output from the modulator 42 and removes frequency components other than the modulated data. An antenna cable I / F unit 44 for transmitting data through an antenna cable of a television, and a demodulator 45 that demodulates data received by the antenna cable I / F unit 44 and outputs the demodulated data to the RS-232C I / F unit 41 unit With. FIG. 3 is a diagram showing a connection form of the first modem in FIG. 1, and includes an RS-232C interface connector 6 and an antenna cable connector 7.
[0019]
Next, the operation will be described with reference to FIG. 1, FIG. 2, FIG. 4 and FIG.
[0020]
The personal computer 1 in the room on the left side of the first floor is connected to the first modem 4. The personal computer 1 outputs data to the first modem 4 (step 1: S1), and the data transmitted from the personal computer 1 is transferred to the antenna cable from the antenna cable outlet (antenna terminal) 3 through the first modem 4. Is done. In the first modem 4, the signal is input from the RS-232C I / F unit 41, modulated to an unused television frequency, for example, 915 MHz ± 13 MHz, by the modulator 42, and the frequency other than data is removed through the band eliminator 43. The signal is output through the cable I / F unit 44 (S2).
[0021]
The data transferred on the antenna cable is taken out from the antenna terminal 3 in the right room on the second floor and inputted to the other first modem 4 (S3). In the other modem 4, the data is input from the antenna cable I / F unit 44, demodulated by the demodulator 45 into data for the data communication terminal, and output to the data communication terminal 2 through the RS-232C I / F unit 41. (S4).
[0022]
On the other hand, the right data communication terminal 2 on the second floor outputs the data to the first modem 4 (S11), and the transmitted data is transferred from the antenna terminal 3 to the antenna cable through the first modem 4. In the first modem 4, the signal is input from the RS-232C I / F unit 41, modulated to an unused television frequency, for example, 915 MHz ± 13 MHz, by the modulator 42, and the frequency other than data is removed through the band eliminator 43. The signal is output through the cable I / F unit 44 (S12).
[0023]
The data transferred on the antenna cable is taken out from the antenna terminal 3 in the left room on the first floor and inputted to the other first modem 4 (S13). In the other modem 4, it is input from the antenna cable I / F unit 44, demodulated by the demodulator 45 into data for the data communication terminal, and is output to the personal computer 1 through the RS-232C I / F unit 41 ( S14).
[0024]
As described above, a home data communication system is realized, and it is possible to freely move devices such as personal computers and data communication terminals in any room where an antenna terminal is already laid.
[0025]
FIG. 6 is a diagram showing a second embodiment of a home data communication system according to the present invention, in which data communication is performed by a personal computer using a first modem via a telephone line instead of the data communication terminal in FIG. The configuration of the case is shown. In this example, a second modem 9 for modulating / demodulating a signal is provided between the modular connector 8 for terminating the analog telephone line and the first modem 4.
[0026]
Next, the operation will be described with reference to FIGS. The telephone modular connector 8 is often installed at one location in the home. Data input via the telephone line is input to the first modem 4 through the analog modem 9. The analog modem 9 is also connected with a telephone 10 that has been conventionally used at home.
[0027]
The first modem 4 interfaces with the analog modem 9 via RS-232C. On the other hand, in the first modem 4, the data is modulated to an unused frequency of the television, and the data is output to the antenna terminal 3 through the interface with the antenna cable of the television. The signal output from the first modem 4 passes through the band eliminator 43 so as not to output outside the frequency of the transferred data.
[0028]
The antenna cable is laid throughout the house, and many rooms are provided with an antenna terminal 3 that is an outlet for the antenna cable. The data transferred through the antenna cable is output from the cable terminal 3 of the individual room using the personal computer 1 and input to the other first modem 4. The data is demodulated inside the other first modem 4 and taken into the personal computer 1 through the RS-232C interface. In this way, the personal computer 1 can receive data from the external network.
[0029]
On the other hand, the data output from the personal computer 1 is input to the first modem 4 through the RS-232C interface, contrary to the above-described procedure. The data modulated in the first modem 4 is output to the antenna cable through the antenna terminal 3. The data transferred through the antenna cable is taken out from the antenna terminal 3 where the modular connector 8 is located and input to the other first modem 4. The data demodulated in the other first modem 4 is input to the analog modem 9 through the RS-232C interface and output to the outside through the modular connector 8.
[0030]
FIG. 7 is a diagram showing a third embodiment of a home data communication system according to the present invention, in which data communication is performed by a personal computer using a first modem via an ISDN line instead of the data communication terminal in FIG. The configuration of the case is shown. In this example, an in-home data line termination unit (DSU) 11 connected to a modular connector 8 for terminating an ISDN line, and an ISDN terminal adapter 12 provided between the DSU 11 and the first modem 4 are provided. Prepare.
[0031]
Next, the operation will be described with reference to FIGS. The ISDN modular connector 8 is often installed at one location in the house. Data input via the ISDN line is input to the first modem 4 through the DSU 11 and the terminal adapter 12. The terminal adapter 12 is also connected to a telephone 10 that has been conventionally used at home.
[0032]
The first modem 4 interfaces with the terminal adapter 12 by RS-232C. On the other hand, in the first modem 4, the data is modulated to an unused frequency of the television, and the data is output to the antenna terminal 3 through the interface with the antenna cable of the television. The signal output from the first modem 4 passes through the band eliminator 43 so as not to output outside the frequency of the transferred data.
[0033]
The antenna cable is laid throughout the house, and many rooms are provided with an antenna terminal 3 that is an outlet for the antenna cable. The data transferred through the antenna cable is output from the cable terminal 3 of the individual room using the personal computer 1 and input to the other first modem 4. The data is demodulated inside the other first modem 4 and taken into the personal computer 1 through the RS-232C interface. In this way, the personal computer 1 can receive data from the external network.
[0034]
On the other hand, the data output from the personal computer 1 is input to the first modem 4 through the RS-232C interface, contrary to the above-described procedure. The data modulated in the first modem 4 is output to the antenna cable through the antenna terminal 3. The data transferred through the antenna cable is taken out from the antenna terminal 3 where the modular connector 8 is located and input to the other first modem 4. The data demodulated in the other first modem 4 is input to the terminal adapter 12 through the RS-232C interface and output from the modular connector 8 to the outside through the DSU 11.
[0035]
In this way, personal computer communication and Internet access by a personal computer become possible.
[0036]
【The invention's effect】
As described above, according to the present invention, the first effect is that home data communication such as personal computer communication and Internet access can be realized without performing a new wiring work in a house. The reason is that a television antenna cable already laid in the house is used as a network medium. Another reason is that a data conversion modem (first modem) is used to realize a network using an antenna cable.
[0037]
The second effect is that it is possible to eliminate the mental discomfort of living with extra wiring in the house. The reason is the same as the reason for the first effect.
[0038]
A third effect is that a device that performs data communication can be moved using a home network. The reason is that an antenna cable already laid in the house is used as a network medium. Therefore, devices such as data communication terminals can be moved anywhere where there is an antenna cable outlet.
[0039]
A fourth effect is that data transfer can be performed at higher speed than data transfer using a power supply line. This is because the frequency range that can be used is wide because transfer is performed using an unused frequency of the television.
[0040]
A fifth effect is that data communication can be performed even if a data communication terminal other than a personal computer is used as the data communication terminal. This is because the modem for data conversion has a common interface used for the data communication terminal, for example, RS-232C.
[Brief description of the drawings]
FIG. 1 is a diagram showing a first embodiment of a home data communication system according to the present invention.
2 is a block diagram of the first modem in FIG. 1. FIG.
FIG. 3 is a diagram showing a connection form of the first modem in FIG. 1;
FIG. 4 is a flowchart showing the operation of the home data communication method of the present invention.
FIG. 5 is a flowchart showing the operation of the home data communication method of the present invention.
FIG. 6 is a diagram showing a second embodiment of the home data communication system of the present invention.
FIG. 7 is a diagram showing a third embodiment of a home data communication system according to the present invention.
FIG. 8 is a diagram showing an example of a conventional home data communication system.
FIG. 9 is a diagram showing another example of a conventional home data communication system.
[Explanation of symbols]
1 PC 2 Data communication terminal 3 Antenna terminal 4 First modem 5 Television 6 RS-232C interface connector 7 Antenna cable connector 8 Modular connector 9 Second modem 10 Telephone 11 DSU
12 Terminal adapter 13 Wiring

Claims (2)

When data from the telephone line is received by an analog second modem, the received data is output to the first modem, and the first modem modulates the frequency to an unused frequency by the first modem, and frequency components other than the data are obtained. It can be removed and input to the other first modem through the TV antenna cable wired in the house, and the data received by the other first modem can be demodulated and moved to any room with an antenna terminal in the house. When the data from the data communication terminal device is received by the other first modem, the received data is modulated to an unused frequency by the television , and the frequency other than the data is output. remove the component output to the first modem through the antenna cable, said second demodulating data received by the first modem Home data communication method characterized by input to the modem, and outputs to the telephone line. When the data from the ISDN line is received through the home data line terminator and the terminal adapter, the received data is output to the first modem, and the first modem modulates the television to an unused frequency, and the frequency other than the data. The component is removed and input to the other first modem through the antenna cable of the television wired in the house, and the data received by the other first modem is demodulated to any room having an antenna terminal in the house. When the data is output to a movable data communication terminal device and, on the other hand, the data from the data communication terminal device is received by the other first modem, the received data is modulated to an unused frequency by the television, and other than the data removing the frequency component outputs to the first modem through the antenna cable, this first modem Home data communication method characterized by outputting a signal data to the ISDN line through demodulating the terminal adapter and the home data circuit-terminating equipment.

Images