JPH02161835A - Catv system - Google Patents

Abstract

PURPOSE:To supply the satellite broadcast programs to each demander home while maintaining the high definition by providing a cut-off means to cut off the signals of an intermediate frequency band received from a transmission line set at the upstream side and to inhibit the transmission of the signals of an intermediate frequency band to the downstream side. CONSTITUTION:The antennas T1-T3 are connected at many points of a transmission line and the signals of an intermediate frequency band are superposed on the transmission line. In this case, the transmission areas of the signals received by one antenna and converted by the converters C1-C3 are limited up to the next antenna joint of the downstream side. For this purpose, the interference is avoided between the signals received via the different antennas and undergone the conversion of frequency. In other words, the signals of an intermediate frequency band in the transmission line which is received by an antenna set at the upstream side higher by one place and converted by the converter and sent are cut off by a cut-off means set at the upstream side of the head end side of a mixer 14 which connects the signals received from one antenna to the transmission line. Thus the signals of the intermediate frequency band are not transmitted to the downstream side of the mixer 14. Then the satellite broadcast of high definition can be transmitted.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a CATV system capable of transmitting satellite broadcasting and satellite communication signals and data.

[Prior art]

Conventionally, CATV systems have been developed with the main purpose of solving difficulties in viewing television broadcasts and dealing with reception problems in urban areas. However, in recent years, as the information and communication environment has changed due to the development of telecommunications technology and the diversification of information, CATV has not only been used to simply transmit conventional television broadcasts, but also to broadcast community programs, specialty programs, etc. independently and by satellite. Services such as broadcast retransmission are starting to attract attention. Of these, if we focus on satellite broadcasting, its reception systems are: - Each consumer installs a satellite antenna and receives the signal directly and inputs it to the television set via a satellite tuner; - Bulk reception at the head end. After demodulating the satellite broadcasting signal, it is re-modulated into an AM modulated television signal and transmitted using an empty channel.■The head end receives it all at once and sends it to the IP band or super high band. There are two methods: a method in which the frequency is converted and transmitted, and a method in which the data is received all at once at the head end, converted to the BS-IF frequency band, which is an intermediate frequency band, and then transmitted.

[Problems to be Solved by the Invention] However, the above method (2) requires each consumer to secure an installation location and install the antenna, which is not desirable in terms of installation costs and aesthetics. In addition, since the method (■) converts into an AM modulated signal and transmits it, satellite broadcasting uses FM modulation for video and P-modulation for audio.
It is not possible to take advantage of the fact that the signal is a high-quality signal composed of CM modulation. In addition, the method (2) has problems with interference and cross-modulation with conventional waves in the UHP band, and it is not possible to transmit all channels of satellite broadcasting in the narrow super high band. Also, ■
The problem with this system is that it does not have a relay amplifier that amplifies the BS-IF frequency band together with the conventional VIIP band, and is limited to small-scale CATV systems that do not require a relay amplifier, such as in communal buildings. The present invention was made to solve the above problems, and its purpose is to enable the transmission of satellite broadcasting and satellite communication signals, data, etc. in a large-scale CATV system. be.

[Means to solve the problem]

The configuration of the invention for solving the above problems is such that, in a CATV system consisting of a relay amplifier and a transmission line, antennas are arranged at a number of predetermined positions on the transmission line and receive radio waves from a broadcasting satellite or a communication satellite; A converter that converts the signal received by an antenna into a predetermined intermediate frequency band, an amplifier that amplifies the intermediate frequency band signal output from the converter, a mixer that superimposes the output of the amplifier on the transmission path, and a mixer. By providing a blocking means installed upstream from the head end side of the device to block signals in the intermediate frequency band transmitted from the transmission line on the upstream side, and prevent signals in the intermediate frequency band from being transmitted downstream. be.

[Effect]

Radio waves of satellite broadcasting or satellite communication are received by antennas arranged at a number of predetermined positions on a transmission path. The signals received by each antenna are converted to a predetermined intermediate frequency band by a converter. This predetermined intermediate frequency band is the BS-IP band for satellite broadcast signals. The signal converted by the converter is amplified by an amplifier for intermediate frequency band, and connected to a transmission line via a mixer. In this way, antennas are connected at many points on the transmission path, and intermediate frequency band signals are superimposed on the transmission path, but the transmission area of the signal received by one antenna and converted by the converter is The antenna is then moved to the next antenna connection point on the side. For this reason, in order to prevent signals received by different antennas and frequency converted from interfering with each other, one The intermediate frequency band signal received by the upstream antenna, converted by the converter, and sent out on the transmission line is blocked, so that the signal is not transmitted downstream from the mixer. In this way, antennas are connected at many points on the transmission line, and the intermediate frequency band signal frequency-converted by the converter is superimposed on the transmission line, and the intermediate frequency band signal is transmitted to many consumers connected to the transmission line. The band signal is transmitted unchanged and input to a television set or the like via a satellite broadcast tuner or the like. Therefore, the signal can be transmitted to many consumers without degrading the quality of satellite broadcasting or the like.

【Example】

The present invention will be described below based on specific examples. Figure 1 shows the overall configuration of the CATV system, where 1 is the head end, 2 is the trunk line, 3 is the branch line, A1 to 86 are the main line amplifiers, T1 to T3 are the satellite antennas, and C
1 to C3 are converters that convert radio waves received by antennas T1 to T3 into intermediate frequency band ([1S-IF band, 1.3GIIz band) signals, and 81 to B9 are branchers inserted in the transmission path. . In such a system, television signals in the VIIP and IIIP bands sent from the head end are transmitted to consumers connected to the branch line 3. In addition, satellite broadcast radio waves are received by each antenna T1 to T3,
The signal is frequency-converted to the BS-IP band by converters C1 to C3, and the output signal is transmitted to the main amplifier Al,
A3. I am inputting it on A5. Trunk amplifiers Al and A to which antennas T1 to T3 are connected
The configuration of the 3°A5 is shown in FIG. 10 is a terminal for inputting a BS-IP band signal, 11 is a transmission line signal input terminal, 12 is a transmission line signal output terminal, 19-
22 is a branch terminal to which a branch line is connected. A BS-IF band amplifier 13 is connected to the BS-IP band signal input terminal 10.
is connected, and its output is connected to the transmission line signal output terminal 12 via the mixer 14. Also, the amplifier 13
The output of Output. Further, the transmission line signal input from the transmission line signal input terminal 11 is VIIP. In addition to the tlllF band television signal, the BS-IP band signal received by the upstream antenna and frequency converted is included, but the BS-IF band signal is sent to the branching filter 2.
3 and terminated at a terminating resistor 24, and the signal thereof is not output to the output terminal 12 or the branch terminals 19-22. Further, signals in other VHF and UHF bands are amplified by an amplifier 25 for that band and outputted to the signal output terminal 12 via a mixer 14. Also, the amplifier 27 is connected via the directional coupler 26.
After being amplified, the signal is output from each branch terminal 19 to 22 via a mixer 17 and a distributor 18. In this way, in this main amplifier, among the signals input from the transmission line, the BS-IP band signals are blocked,
The BS-IP band signal of the satellite broadcasting signal received by the antenna connected to this main amplifier is superimposed again on the amplifier main line and the branch line transmission line. Also, the VIIF and UIIF band signals transmitted from the head end are amplified by the amplifier 25 and output to the main line.
The signal is also amplified by an amplifier 27 and output to each branch line. On the other hand, the main amplifier A2 to which the antenna is not connected.
A4. A6 is configured as shown in Fig. 3, and the signal input from the transmission line is separated into a BS-IP band signal and a V) IP, UHF band signal by a splitter 23.
The BS-IP band signal is amplified by the BS-IF band amplifier 13 and output to the main line via the mixer 14 and the transmission line signal output terminal 12, and is then output to the main line through the directional coupler 15, amplifier 16,
The signal is output to each branch line via the mixer 17, distributor 18, and branch terminals 19-22. Further, the signals in the VIIP and UHF bands are amplified by the amplifier 25 and output to the main line via the mixer 14 and the transmission line signal output terminal 12, and then the directional coupler 2
6, the signal is output to each branch line via the amplifier 27, mixer 17, distributor 18, and branch terminals 19-22. Since the CA↑V system is configured as described above, the transmission range of the satellite broadcasting signal received by the antenna T1 is the branch line connected to the main amplifier AI, the main line after the main amplifier A1, and the main line after the main amplifier A1. Mains amplifier A2 and mains amplifier A
2 and the main line after the main amplifier A2. Also, the transmission range of the satellite broadcasting signal received by antenna T2 is between the branch line connected to main amplifier A3 and
A main line after the main amplifier A3, a main line amplifier A4, a branch line connected to the main amplifier A4, and a main line after the main amplifier A4. In this way, the transmission range of the satellite broadcast signal received by each antenna is determined, and in all CATV systems,
It can transmit satellite broadcast signals. In the above embodiment, the main line amplifier to which the antenna is connected and the intermediate main line amplifier to which the antenna is not connected have separate configurations, but they may have a common configuration as shown in FIG. 4. That is, the 0S-IP band output of the duplexer 23 is terminated with the terminating resistor 24 and the BS-IF band signal input terminal 1
0 is connected to the 03-IF band amplifier 13, and the BS-IP band output of the duplexer 23 is connected to the BS-IF band amplifier 13, and the BS-IP band double input terminal 10 is open. A switch section S that is switched by wiring may be formed between the two. Also, in the above embodiment, the output of the antenna is the BS of the main amplifier.
- Although connected to the IPP area signal input terminal, it may be connected to the transmission line using the connector shown in FIG. To explain the configuration of the connector, in Fig. 5, 30
is the BS to which the output of the antenna via the converter is connected.
-IF band signal input terminal, 31 is transmission line signal input terminal,
32 is a transmission path signal output terminal, 33 is a BS-IF band amplifier, 34 is a mixer, 35 is a duplexer, and 36 is a terminating resistor. Signals input from the transmission path are separated by a duplexer 35, and signals in the BS-IF band are terminated by a terminating resistor 36 and are not output to the downstream transmission path. Also, VHF, tlH
The P-band signal is output to the transmission line from the transmission line signal output terminal 32 via the splitter 35 and mixer 34. Furthermore, the B5-11' band signal input from the [l5-IF band signal input terminal 30 is sent to the BS-IF band amplifier 33.
The signal is amplified by the mixer 34 and sent to the transmission line signal output terminal 32
output to the transmission line. With such a connector, the BS-IP band signal received by the antenna and converted by the converter is superimposed on the transmission path without interfering with the BS-IF W band signal sent from another antenna via the converter. be able to. Further, the antenna may be provided in a transmission line area connected to a customer who needs to supply satellite broadcasting signals, and does not need to be provided on all transmission lines. Effects of the Invention The present invention provides an antenna that is placed at a number of predetermined positions on a transmission path and receives radio waves from a broadcasting satellite or a communication satellite, and converts the signal received by the antenna into a predetermined intermediate frequency band. a converter that amplifies the intermediate frequency band signal output from the converter, a mixer that superimposes the output of the amplifier on the transmission path, and a This is a CATV system that is equipped with a means for blocking intermediate frequency band signals transmitted from the transmission path of The frequency-converted signal can be supplied to all necessary transmission lines. Therefore, a large-scale CATV system that can supply satellite broadcasting and the like to each customer while maintaining high quality is realized.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the overall configuration of a CATV system according to a specific embodiment of the present invention, and FIGS. 2 and 3 show the configuration of a main amplifier used in the embodiment system. FIG. 4 is a circuit diagram showing the configuration of a mains amplifier according to another embodiment, and FIG. 5 is a circuit diagram showing the configuration of a connector used in the system of another embodiment. 1-Head end 2-- Main line 3-- Branch line A1 ~
A6-Main amplifier 01-C3/Converter T1-T3
... Satellite broadcast antenna 10, 30 [1S-IF band signal input terminal 11.3
1 12, 32 13, 33 14, 34 24, 36 ・Transmission line signal input terminal Transmission line signal output terminal BS to IF band amplifier/-mixer 23.35 Duplexer terminating resistor

Claims (3)

[Claims] (1) In a CATV system consisting of a repeater amplifier and a transmission line, there are antennas placed at a number of predetermined positions on the transmission line to receive radio waves from broadcasting satellites or communication satellites, and a signal received by the antenna to be transmitted to a predetermined location. an amplifier that amplifies the intermediate frequency band signal output from the converter; a mixer that superimposes the output of the amplifier on the transmission path; What is claimed is: 1. A CATV system, characterized in that the CATV system is provided with a blocking means for blocking a signal in an intermediate frequency band transmitted from a transmission line on an upstream side and preventing a signal in the intermediate frequency band from being transmitted on a downstream side. (2) The output of the converter is input to an intermediate frequency input terminal provided in a relay amplifier, and the output of the converter is input to the intermediate frequency input terminal provided in the relay amplifier,
2. The CATV system according to claim 1, wherein the cutoff means is provided within the relay amplifier. (3) A relay amplifier that exists between adjacent antennas and to which no antenna is connected has an amplifier that separates the intermediate frequency band from among the signals input from the transmission path and amplifies only the signal in that intermediate frequency band. 2. The CATV system according to claim 1, wherein the output is superimposed on the transmission path via a mixer.