JP2006262380A - Catv system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a CATV system wherein an electric signal having a frequency band different from the frequency band amplifiable by a bidirectional amplifier is also available for two-way communication. <P>SOLUTION: A CATV system comprises: a bidirectional amplifier 15; a first filter 41A provided between a first connecting section 27B for a cable modem 33A that generates a first modem signal and a CATV transmission line 13A and the bidirectional amplifier for selectively attenuating a modem signal; a second filter 41B provided between a second connecting section 27C for a cable modem 33B that generates a modem signal and a CATV transmission line 13B and the bidirectional amplifier for selectively attenuating a modem signal; a third CATV transmission line 13F including a third filter of which both terminals are connected between the first and second connecting sections and the first and second filters for selectively passing a modem signal; and a fourth filter 41D provided between an optical node and the connecting section 27B for selectively attenuating a modem signal. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a CATV system capable of bidirectional communication.

  Originally, the CATV system was a one-way transmission in which a video signal or the like was distributed from a head end to a subscriber's home via a CATV transmission path composed of a coaxial cable or the like. However, in recent years, a CATV system capable of transmitting information from the subscriber's home side to the headend side so as to realize information such as cable Internet and cable videophone using the broadband property of the CATV transmission path is possible. Has been developed. In the CATV system capable of such bi-directional communication, the frequency band to be used is changed in order to distinguish the downlink signal and the uplink signal transmitted through the same CATV transmission line. For example, the downstream signal uses 70 MHz to 770 MHz as the frequency band, and the upstream signal uses 10 MHz to 55 MHz as the frequency band.

When a cable Internet is realized using a CATV system capable of bidirectional communication, a terminal such as a PC is connected to a CATV transmission line via a cable modem. As this cable modem, there is known a cable modem that enables high-speed data transmission by using an arbitrary 50 MHz band in a frequency band of 800 MHz to 1.5 GHz that is not used in conventional upstream signals and downstream signals. .
JP-A-10-229551 Japanese Patent Laid-Open No. 2001-358742

  However, when a conventional cable modem that uses an electric signal in a frequency band that is not used for an upstream signal or a downstream signal is applied to a CATV system including an apartment house such as a condominium, the following problem has occurred.

  That is, when the housing complex is subscribed to the CATV system, the electric signal from the head end is distributed in the housing complex. In order to prevent the deterioration of the electric signal due to the distribution, an amplifier for amplifying the electric signal is installed in the apartment house. In the bidirectional CATV system as described above, the bidirectional signal for amplifying the downstream signal and the upstream signal is installed. An amplifier will be used. Since this bi-directional amplifier is designed to compensate for amplification of signals having frequency components in the frequency band used by conventional downstream and upstream electrical signals, as described above, the frequency band is not conventionally used. However, there is a problem that data cannot be transmitted through a bidirectional amplifier.

  Accordingly, an object of the present invention is to provide a CATV system in which an electric signal having a frequency band different from a frequency band that can be amplified by a bidirectional amplifier can also be used for bidirectional communication.

  In order to solve the above problems, a CATV system according to the present invention is a CATV system capable of two-way communication between a head end and a subscriber's house in an apartment house, and (1) an optical node at the head end. Are connected to the first CATV transmission line and the second CATV transmission line connected to the subscriber's house through the first CATV transmission line, and a second signal is amplified by amplifying the downlink signal input from the first CATV transmission line. And a bi-directional amplifier that amplifies the upstream signal input from the second CATV transmission line and outputs the amplified signal to the first CATV transmission line, and (2) the frequency band of the downstream signal and the upstream signal First CATV transmission between a first cable modem that generates a first modem signal having a frequency component of a frequency band different from the first cable modem and a first connection between the first CATV transmission line and the bidirectional amplifier On the street A first filter for selectively attenuating the first modem signal; and (3) generating a second modem signal having a frequency component in a frequency band different from the frequency band of the downstream signal and upstream signal. A second cable modem installed at the subscriber's home and a second connection part between the second CATV transmission line and the second CATV transmission line between the bidirectional amplifier and the second cable TV. A second filter for selectively attenuating the modem signal; (4) one end connected to the first CATV transmission line between the first connection and the first filter; and a second connection And a third CATV transmission line having the other end connected between the first and second filters, and (5) provided on the third CATV transmission line to select the first and second modem signals. A third filter passing through, (6) the optical node and the first filter It is provided to the first CATV transmission path between the connection part, characterized in that it comprises a fourth filter for selectively attenuating first and second modem signals.

  In the above configuration, the first modem signal generated by the first cable modem is input to the first CATV transmission line via the first connection unit. As a result, in the first CATV transmission line downstream of the first connection unit, the downstream signal from the head end includes the first modem signal, and the first modem signal is directed toward the bidirectional amplifier. Will be transmitted. The second modem signal generated by the second cable modem is input to the second CATV transmission line via the second connection unit. As a result, the second modem signal is included in the upstream signal in the second CATV transmission line upstream of the second connection unit.

  In the CATV system, one end of the third CATV transmission line is connected to the first CATV transmission line between the first connection unit and the first filter, and the other end is connected to the second connection unit. And a second CATV transmission line between the second filter and the second filter. That is, the first and second CATV transmission lines are connected by the third CATV transmission line without going through a bidirectional amplifier. Since the third filter for selectively passing the modem signal is provided on the third CATV transmission line, the first modem signal included in the downlink signal transmitted by the first CATV transmission line is: It mainly flows to the third CATV transmission line and is input to the second CATV transmission line without going through the bidirectional amplifier. Similarly, the second modem signal included in the upstream signal transmitted through the second CATV transmission line is input to the first CATV transmission line without passing through the bidirectional amplifier.

  Then, the second modem signal input to the first CATV transmission line reaches the first cable modem via the first connection unit, and is input to the second CATV transmission line. The first modem signal will reach the second cable modem via the second connection. That is, in the CATV system configured as described above, the first and second cables do not depend on the amplification characteristics of the bidirectional amplifier, even if the bidirectional amplifier is provided on the transmission path connecting the head end and the subscriber's home. The first and second modem signals can be transmitted and received between the modems via the first to third CATV transmission lines and the first and second connection portions.

  In addition, of the down signal from the head end and the up signal from the subscriber's home, the electrical signals other than the first and second modem signals that have flowed to the third CATV transmission line are the first and second modem signals. The first and second filters are selectively attenuated and input to the bidirectional amplifier. As a result, the downstream amplifier and the upstream signal having a frequency band other than the frequency band of the modem signal are input to the bidirectional amplifier. The bidirectional amplifier amplifies the input downstream signal and upstream signal and outputs the amplified downstream signal and upstream signal to the second CATV transmission line and the first CATV transmission line. Therefore, an electrical signal using a band other than the frequency bands of the first and second modem signals among the downstream signal and the upstream signal can be reliably amplified by the bidirectional amplifier.

  Furthermore, a fourth filter for selectively attenuating the first and second modem signals is provided between the optical node and the first connection so that the first and second modem signals are at a high level. Does not reach the optical node. Therefore, the downstream signal input from the head end to the optical node is not affected by the first and second modem signals.

  Furthermore, it is considered that the frequency band of the modem signal in the CATV system according to the present invention is 800 MHz to 1.5 GHz.

  Further, in the CATV system according to the present invention, a receiving terminal that is provided on the second CATV transmission line and downstream of the second connection unit and receives a downstream signal from the head end, and a second connection It is preferable to further include a fifth filter that is provided on the second CATV transmission line between the communication unit and the receiving terminal and selectively attenuates the first modem signal.

  In the above configuration, since the fifth filter is provided between the second connection unit and the receiving terminal, the first modem signal transmitted through the third CATV transmission line and the second CATV transmission line. Is not input to the receiving terminal. As a result, the downstream signal from the head end is not deteriorated by the first modem signal.

  According to the CATV system of the present invention, bidirectional communication can be realized using an electrical signal having a frequency band different from the frequency band that can be amplified by the bidirectional amplifier.

  A preferred embodiment of a CATV system according to the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, the CATV system 1 has an apartment house 5 such as an apartment having a plurality of subscriber homes 3, 3, 3 in its service area. The CATV system 1 is a two-way CATV system that has a head end 7 that delivers a broadcast program or the like to a subscriber's home 3 and that allows two-way communication between the head end 7 and the subscriber's home 3. The head end 7 is also connected to a telephone network (not shown), so that a cable videophone or the like can be realized.

  In the CATV system 1, an optical fiber cable 11 is laid from the head end 7 to the optical node 9 installed in the service area, and from the optical node 9 to the housing complex 5, a CATV transmission line (first 1 CATV transmission path) 13A. In the apartment house 5, a network is formed by a CATV transmission line (second CATV transmission line) 13B made of a coaxial cable.

  The optical node 9 converts an optical signal and an electrical signal to each other, converts a CATV signal as an optical signal transmitted from the head end 7 into an electrical signal having a frequency band of 70 MHz to 770 MHz, and outputs the electrical signal to the CATV transmission line 13A. . In addition, an upstream signal as an electrical signal transmitted from the subscriber's home 3 and transmitted via the CATV transmission paths 13A and 13B is converted into an optical signal and transmitted to the head end 7.

  In the following description, electric signals such as broadcast signals and video signals distributed from the head end 7 to the subscriber's home 3 are also referred to as CATV signals. A signal flow from the head end 7 side toward the subscriber home 3 side is referred to as “downward”, and a signal flow from the subscriber home 3 side toward the head end 7 side is referred to as “upstream”.

  In the building of the apartment house 5, a bidirectional amplifier 15 connected to the CATV transmission line 13A is provided. In addition, the housing 5 is provided with a receiver 17 (for example, an antenna) for receiving BS broadcasting. The receiver 17 converts the received broadcast signal into an electric signal having a frequency band of 1032 MHz to 1350 MHz, and inputs the electric signal to the bidirectional amplifier 15 via the CATV transmission line 13C formed of a coaxial cable. An electric signal having a frequency band of 1032 MHz to 1350 MHz is also referred to as a BS signal.

  The bidirectional amplifier 15 has one end connected to the CATV transmission paths 13A and 13C and the other end connected to the CATV transmission path 13B. The bidirectional amplifier 15 electrically connects the CATV transmission lines 13A and 13C and the CATV transmission line 13B. The bidirectional amplifier 15 is a pair of high-pass filters 19A and 19B that selectively pass an electric signal having a frequency component of a frequency band of 1000 MHz or higher, and a pair of electric signals that have a frequency component within a frequency band of 70 MHz to 770 MHz. The medium-pass filters 21A and 21B and a pair of low-pass filters 23A and 23B that selectively pass electric signals having frequency components in the frequency band of 5 MHz to 55 MHz.

  The high pass filters 19A and 19B are connected via an amplifier 25A that amplifies the downstream signal. Similarly, the medium pass filters 21A and 21B are connected via an amplifier 25B that amplifies the downstream signal. The low-pass filters 23A and 23B are connected via an amplifier 25C that amplifies the upstream signal.

  Therefore, when an electric signal is input to the bidirectional amplifier 15 from the CATV transmission lines 13A and 13C, if the electric signal is a CATV signal, the electric signal passes through the medium-pass filter 21A and is electrically output by the amplifier 25B. Amplified. The electric signal amplified by the amplifier 25B passes through the medium pass filter 21B and is output to the CATV transmission line 13B.

  If the electrical signal input from the upstream side is a BS signal, the electrical signal passes through the high-pass filter 19A and is electrically amplified by the amplifier 25A. The electric signal amplified by the amplifier 25A passes through the high pass filter 19B and is output to the CATV transmission line 13B.

  Furthermore, when an electric signal is input from the downstream side, an electric signal having a frequency component in the frequency band of 5 MHz to 55 MHz among the electric signal passes through the low-pass filter 23B and is electrically amplified by the amplifier 25C. The electric signal amplified by the amplifier 25C passes through the low-pass filter 23A and is output to the CATV transmission line 13A.

  As described above, in the bidirectional amplifier 15 having the above configuration, the amplification of the CATV signal and the BS signal included in the downstream signal is reliably compensated. In addition, amplification of an electric signal included in the upstream signal and having, for example, a frequency band of 10 MHz to 55 MHz is reliably compensated.

  A CATV transmission line 13B made of a coaxial cable is laid from the bidirectional amplifier 15 to the subscriber homes 3, 3, and 3. The CATV transmission line 13B is divided into a plurality of branches via a branch / mixer 27A, thereby forming a network between the bidirectional amplifier 15 and the subscriber homes 3, 3 and 3. The CATV transmission line 13B drawn into the subscriber's home 3 is provided with a set top box (hereinafter referred to as “STB”) 29 as a CATV signal receiving terminal.

  A television receiver 31 is connected to the STB 29, and the STB 29 demodulates a high frequency modulated analog / digital signal (CATV signal) of 70 MHz to 770 MHz and outputs a video to the television receiver 31. The STB 29 also preferably has a function of outputting a request signal such as an image distribution request to the head end 7 toward the head end 7 as an electrical signal of 10 MHz to 55 MHz. The CATV transmission line 13B is also connected to a telephone installed in the subscriber's home 3 via a modem, and the voice of the telephone is converted into an electrical signal having a frequency band of 10 MHz to 55 MHz to the upstream side. It is transmitted as an audio signal.

  In addition, a BS tuner 32 connected to the CATV transmission line 13B is connected to the television receiver 31 via a branching / mixing device 27F provided in the preceding stage of the STB 29. The BS tuner 32 demodulates the analog / digital signal (BS signal) of 1032 MHz to 1350 MHz input via the branching / mixing device 27 </ b> F and outputs the video to the television receiver 31.

  The CATV system 1 includes a first cable modem (hereinafter simply referred to as “modem”) 33A and a second cable modem (hereinafter simply referred to as “modem”) 33B in order to realize the cable Internet. . The modems 33A and 33B are, for example, c. Using Link technology c. Link modem.

  The modems 33A and 33B mutually convert an Internet signal transmitted through the Internet network 35 and a modem signal (for example, a c. Link signal) that can be transmitted through the CATV system 1. This modem signal uses an arbitrary 50 MHz bandwidth out of a frequency band of 800 MHz to 1.5 GHz that is not used for CATV signals, BS signals, audio signals, and the like. By using such a modem signal, the CATV system 1 can perform high-speed data transmission between the modems 33A and 33B.

  As shown in FIG. 1, the modem 33A is provided outside the apartment house 5, and is connected to the Internet network 35 via, for example, an Ethernet (registered trademark) cable C1. The modem 33A is connected to the CATV transmission line 13A via a CATV transmission line 13D made of a coaxial cable. More specifically, the CATV transmission line 13D is connected to the CATV transmission line 13A via a branch / mixer 27B (first connection unit) provided on the CATV transmission line 13A.

  The modem 33A converts the Internet signal input from the Internet network 35 to generate a modem signal and outputs it to the CATV transmission line 13D. The modem signal generated by the modem 33A is also referred to as a first modem signal. The modem 33A converts a modem signal input from the CATV transmission line 13D into an Internet signal and outputs the Internet signal to the Internet network 35.

  The branching / mixing device 27B connecting the CATV transmission lines 13A and 13D receives the first modem signal transmitted from the modem 33A to the CATV transmission line 13D and outputs it to the CATV transmission line 13A. Further, the branching / mixing device 27B branches the upstream signal transmitted by the CATV transmission line 13A and outputs a modem signal included in the upstream signal to the CATV transmission line 13D. As a result, the modem signal included in the upstream signal is input to the modem 33A. It is preferable that the branching / mixing device 27B selectively extracts the modem signal from the upstream signal and outputs it to the CATV transmission line 13D.

  On the CATV transmission line 13A between the branch / mixer 27B and the optical node 9, a notch filter (fourth filter) 41D for cutting off an electric signal (modem signal) having a frequency band of 800 MHz to 1.5 GHz is provided. Is provided. As a result, the modem signal transmitted through the CATV transmission line 13A is not input to the optical node 9. The notch filter is also referred to as NF.

  The modem 33B is installed in the subscriber's house 3 and is connected to a personal computer (hereinafter simply referred to as “PC”) 37 as an Internet terminal for transmitting and receiving Internet signals via, for example, an Ethernet (registered trademark) cable C2. Connected.

  The modem 33B is connected to the CATV transmission line 13B via a CATV transmission line 13E made of a coaxial cable. More specifically, the CATV transmission line 13E is connected to a branch / mixer 27C (second connection unit) provided on the CATV transmission line 13B.

  The modem 33B converts the internet signal input from the PC 37 to generate a modem signal. The modem signal generated by the modem 33B is also referred to as a second modem signal. Note that the first modem signal and the second modem signal are signals having the same frequency component. Also, the modem 33B converts a modem signal input via the CATV transmission path 13E into an Internet signal and inputs it to the PC 37 via the Ethernet (registered trademark) cable C2.

  The branching / mixing unit 27C connecting the CATV transmission lines 13B and 13E receives the second modem signal transmitted from the modem 33B to the CATV transmission line 13E and inputs the second modem signal to the CATV transmission line 13B. Further, the branching / mixing device 27C branches the downlink signal transmitted through the CATV transmission path 13B, and inputs the modem signal included in the downlink signal to the CATV transmission path 13E. As a result, the modem signal included in the upstream signal is input to the modem 33B. It is preferable that the branching / mixing device 27C selectively extracts the modem signal from the downstream signal and outputs it to the CATV transmission line 13E.

  Incidentally, the CATV transmission line 13B constituting the network in the building and the CATV transmission line 13 constituting the network outside the building are connected by the bidirectional amplifier 15, but as described above, the bidirectional amplifier 15 is the first one. It is not designed to amplify the frequency band of the first and second modem signals. Therefore, in the CATV system 1, a CATV transmission line (third CATV transmission line) 13F as a bypass transmission line is provided so that the first and second modem signals can be transmitted and received between the modem 33A and the modem 33B. Have

  The CATV transmission line 13F is formed of a coaxial cable, and one end 13Fa thereof is connected to the CATV transmission line 13A between the branch / mixer 27B and the bidirectional amplifier 15 via the branch / mixer 27D. The other end 13Fb of the CATV transmission line 13F is disposed upstream of the branch / mixer 27C (more specifically, closest to the bidirectional amplifier 15) and the branch / mixer 27A and the bidirectional amplifier 15. Is connected to the CATV transmission line 13B between and via the branch / mixer 27E.

  The CATV transmission line 13F selectively passes an electric signal having a frequency component in the frequency band 800 MHz to 1.5 GHz and cuts off an electric signal having a frequency component in another frequency band (hereinafter, “ 39) (referred to as “BPF”).

  Further, on the CATV transmission line 13A between the branch / mixer 27D and the bidirectional amplifier 15, a notch filter (first filter) 41A for cutting off an electric signal having a frequency band of 800 MHz to 1.5 GHz is provided. ing. Thus, even if the first modem signal is included in the downstream signal propagating in the CATV transmission line 13A on the downstream side of the branching / mixing device 27D, it is blocked by the notch filter 41A. No modem signal 1 is input.

  A notch filter 41B having the same configuration as the notch filter 41A is provided between the branch / mixer 27E and the bidirectional amplifier 15. Thereby, even if the second modem signal is included in the electrical signal propagating in the CATV transmission line 13B on the upstream side of the branching / mixing device 27D, the second modem signal is blocked by the notch filter 41B. The second modem signal is not input to the bidirectional amplifier 15. In FIG. 1, the notch filters 41A and 41B are denoted as NF41A and 41B.

  By providing the CATV transmission line 13F as a bypass transmission line as described above, a higher level (in other words, higher strength) modem signal is transmitted and received between the modems 33A and 33B. In this case, if a high-level first modem signal is input together with a CATV signal or the like to the STB 29 downstream of the branching / mixing device 27C, the audio / image data converted from the downstream signal by the STB 29 is affected. There is a risk of receiving.

  Therefore, in the CATV system 1, a notch filter (fifth filter) 41C having the same configuration as the notch filter 41A is provided on the CATV transmission path 13B between the branch / mixer 27B and the branch / mixer 27F. Since the first modem signal in the electrical signal is blocked by the notch filter 41C, the input of the first modem signal to the STB 29 is suppressed. Even if the first modem signal is input, there is no influence on the sound / image data. Absent.

  The operation of the CATV system 1 configured as described above will be described.

  When the CATV signal as an optical signal is output from the head end 7 to the optical fiber cable 11, the optical node 9 converts the optical signal into an electrical signal having a frequency band of 70 MHz to 770 MHz and outputs the electrical signal to the CATV transmission line 13A. As a result, the CATV signal is transmitted to the CATV transmission path 13A downstream from the optical node 9.

  When an internet signal is input from the internet network 35 to the modem 33A, the modem 33A converts the internet signal into a first modem signal and outputs it to the CATV transmission line 13D. The first modem signal transmitted through the CATV transmission line 13D is output to the CATV transmission line 13A via the branch / mixer 27B. As a result, the CATV signal and the first modem signal are included in the downstream signal in the CATV transmission line 13A downstream of the branching / mixing device 27B.

  On the CATV transmission line 13A, a branch / mixer 27D and a notch filter 41A are provided in this order from the branch / mixer 27B to the downstream. The first and second modem signals are selectively passed through the CATV transmission line 13F connected to the branching / mixing device 27D, and the frequency band other than the modem signals such as the CATV signal, the audio signal, and the BS signal is transmitted. A BPF 39 that cuts off the electrical signal is provided. As a result, the first modem signal in the downstream signal propagating through the CATV transmission line 13A downstream from the branching / mixing device 27B is mainly transmitted by the CATV transmission line 13F and input to the CATV transmission line 13B. Become.

  Further, the downstream signal that passes through the branch / mixer 27D and propagates through the CATV transmission line 13A is input to the notch filter 41A. As a result, the first modem signal included in the downlink signal is blocked, and the downlink signal (that is, the CATV signal) not including the first modem signal is input to the bidirectional amplifier 15. Then, the input downlink signal is amplified by the bidirectional amplifier 15 and then output to the CATV transmission line 13B. At this time, the BS signal input to the bidirectional amplifier 15 via the CATV transmission path 13C is also amplified and output to the CATV transmission path 13B. Therefore, the downlink signal output from the bidirectional amplifier 15 includes the CATV signal and the BS signal.

  The downstream signal output from the bidirectional amplifier 15 passes through the notch filter 41B, and is then superimposed on the first modem signal transmitted through the CATV transmission path 13F by the branch / mixer 27E, and then the subscriber's home 3 Is transmitted.

  In the subscriber's home 3, the first modem signal included in the downlink signal is input to the modem 33B via the branch / mixer 27C and the CATV transmission line 13E. The modem 33B converts the input first modem signal into an Internet signal, and then outputs it to the Ethernet (registered trademark) cable C2. As a result, an Internet signal corresponding to the first modem signal is input to the PC 37.

  The downstream signal that has passed through the branching / mixing device 27B is input to the STB 29 after passing through the notch filter 41C. As a result, the CATV signal and the BS signal are input to the STB 29 while the first modem signal is not input. The STB 29 demodulates the CATV signal included in the received downlink signal, and inputs the video to the television receiver 37. A part of the downstream signal that has passed through the branching / mixing device 27B is branched by the branching / mixing device 27F and input to the BS tuner 32. The BS tuner 32 demodulates the BS signal included in the downstream signal and inputs the video to the television receiver 37.

  Next, the uplink signal will be described. Since the operation is the same except that the flow is reverse to that of the downlink signal, a brief description will be given. The internet signal output from the PC 37 is converted into a second modem signal by the modem 33B.

  The second modem signal output from the modem 33B is input to the CATV transmission line 13B via the CATV transmission line 13E and the branch / mixer 27C. At this time, since the second modem signal is superimposed on the upstream signal in the frequency band of 10 MHz to 55 MHz output from the STB 29 or the telephone, the upstream signal including the second modem signal is transmitted to the bidirectional amplifier 15 side. Will be.

  Since the branching / mixing device 27E to which the CATV transmission line 13F having the BPF 39 is connected is provided on the CATV transmission line 13B, the second modem signal included in the uplink signal mainly passes through the CATV transmission line 13F. Thus, the bidirectional amplifier 15 is bypassed and input to the CATV transmission line 13A.

  On the other hand, the upstream signal that has passed through the branch / mixer 27E is input to the bidirectional amplifier 15 after the second modem signal is blocked by passing through the notch filter 41B. As a result, an electrical signal (such as an audio signal) having a frequency band of 10 MHz to 55 MHz is reliably input to the bidirectional amplifier 15 as an upstream signal. The input upstream signal is amplified by the bidirectional amplifier 15 and output to the CATV transmission line 13A. Then, after passing through the notch filter 41A, the second modem signal is further superimposed by the branching / mixing device 27D.

  As a result, the upstream signal transmitted by the CATV transmission line 13A upstream of the branching / mixing device 27D includes the second modem signal in addition to the audio signal of 10 MHz to 55 MHz. The second modem signal is input to the CATV transmission line 13D via the branch / mixer 27B.

  The second modem signal transmitted through the CATV transmission line 13D is input to the modem 33A, converted into an Internet signal, and then output to the Internet network 35. Further, the upstream signal as an electrical signal of 10 MHz to 55 MHz that has passed through the branching / mixing device 27B passes through the notch filter 41D, is converted into an optical signal by the optical node 9, and is then input to the head end 7.

  As described above, in the CATV system 1, by using the modems 33A and 33B that perform data transmission using an arbitrary 50 MHz band of the frequency band of 800 MHz to 1.5 GHz, for example, a high speed of 270 Mbps at the maximum is possible. Data transmission is possible.

  Then, by bypassing the bidirectional amplifier 15 using the CATV transmission line 13F, the first modem signal can be transmitted from the CATV transmission line 13A outside the building to the CATV transmission line 13B. The second modem signal can be transmitted from the line 13B to the CATV transmission line 13A. This makes it possible to reliably transmit and receive the first and second modem signals between the modems 33A and 33B. Therefore, a high-speed cable internet can be realized reliably.

  Since notch filters 41A and 41B are provided upstream and downstream of the bidirectional amplifier 15, respectively, modem signals (more specifically, first and second modem signals) are input into the bidirectional amplifier 15. Is suppressed. As a result, since the bidirectional amplifier 15 operates more accurately without being affected by the modem signal, the deterioration of the CATV signal and the BS signal is suppressed, and as a result, a clearer image is displayed on the television receiver 31. it can.

  By the way, when a modem signal (first and second modem signals) is input to the optical node 9, distortion may occur in the optical node 9, which may affect the CATV signal. In contrast, in the CATV system 1, a notch filter 41D is installed between the optical node 9 and the branching / mixing device 27B. As a result, the second modem signal that has passed through the branch / mixer 27B and the first modem signal that has flowed upstream from the branch / mixer 27B are prevented from being input to the optical node 9. As a result, the CATV signal is not affected by the modem signal.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to the above embodiment. For example, the modems 33 </ b> A and 33 </ b> B are different from the frequency band of the downstream signal and upstream signal input to the bidirectional amplifier 15, more specifically, the frequency band 10 MHz to 55 MHz, the frequency band 70 MHz to 770 MHz, and the frequency band 1032 MHz to 1350 MHz. Any data transmission is possible as long as it uses frequency components in the frequency band. The Link technology may not be used.

  In addition, the notch filters 41A to 41D cut off electric signals having frequency components in the frequency band 800 MHz to 1.5 GHz. However, the notch filters 41A to 41D are attenuated so as not to affect the bidirectional amplifier 15, the STB 29 and the optical node 9. That's fine. The notch filters 41A to 41D have the same configuration, but the frequency bands that the notch filters 41A to 41D cut off or attenuate can be changed according to the first and second modem signals generated by the modems 33A and 33B. Good. Specifically, the notch filter 41A only needs to selectively attenuate or block the first modem signal, and the notch filter 41B only needs to selectively attenuate or block the second modem signal. Further, the notch filter 41C only needs to be able to selectively attenuate or block the first modem signal. Further, the notch filter 41D only needs to selectively attenuate or block the first and second modem signals.

  Moreover, although the apartment house 5 is set as an apartment, it may be anything that includes a plurality of subscribers such as buildings and hotels. Furthermore, in the above-described embodiment, the modem 33A, the BPF 39, and the notch filters 41A and 41D are installed outside the building. However, they can be installed inside the building.

It is a block diagram which shows the structure of one Embodiment of the CATV system which concerns on this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... CATV system, 3 ... Subscriber house, 5 ... Apartment house, 7 ... Head end, 13A ... CATV transmission line (1st CATV transmission line), 13B ... CATV transmission line (2nd CATV transmission line), 13D ... CATV transmission line, 13E ... CATV transmission line, 13F ... CATV transmission line (third CATV transmission line), 13Fa ... one end of the third CATV transmission line, 13Fb ... other end of the third CATV transmission line, 15 ... Bidirectional amplifier, 33A ... modem (first cable modem), 33B ... modem (second cable modem), 35 ... Internet network, 37 ... PC (terminal for Internet), 39 ... band pass filter (third filter) ), 41A ... notch filter (first filter), 41B ... notch filter (second filter), 41C ... notch filter (fifth filter), 1D ... notch filter (fourth filter).

Claims (3)

A CATV system capable of two-way communication between a headend and a subscriber's house in an apartment house,
It is connected to the first CATV transmission line connected to the head end via an optical node and the second CATV transmission line connected to the subscriber's house, and is input from the first CATV transmission line. A bidirectional amplifier that amplifies a downlink signal and outputs the amplified signal to the second CATV transmission line and amplifies an uplink signal input from the second CATV transmission line and outputs the amplified signal to the first CATV transmission line;
A first connection between a first cable modem for generating a first modem signal having a frequency component in a frequency band different from the frequency band of the downlink signal and the uplink signal, and the first CATV transmission line; A first filter provided on the first CATV transmission line to a bi-directional amplifier for selectively attenuating the first modem signal;
A second modem signal having a frequency component in a frequency band different from the frequency band of the downlink signal and the uplink signal is generated, and a second cable modem installed in the subscriber's house and a second CATV transmission line A second filter provided on the second CATV transmission line between a second connection and the bidirectional amplifier for selectively attenuating the second modem signal;
One end connected to the first CATV transmission line between the first connection portion and the first filter, and the other connected between the second connection portion and the second filter A third CATV transmission line having ends;
A third filter provided on the third CATV transmission line and selectively passing the first and second modem signals;
A fourth filter, provided on the first CATV transmission line between the optical node and the first connection, for selectively attenuating the first and second modem signals;
A CATV system comprising:   2. The CATV system according to claim 1, wherein a frequency band of the first and second modem signals is 800 MHz to 1.5 GHz.   A receiving terminal that is provided on the second CATV transmission line and downstream of the second connection unit and receives a downlink signal from the head end; the second connection unit; and the receiving terminal; The CATV system according to claim 1, further comprising a fifth filter that is provided on the second CATV transmission line between the first modem signal and selectively attenuates the first modem signal. .

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