KR20200087988A - Inter-layer line amplifier of building including branching function - Google Patents

Abstract

The present invention relates to an inter-floor line amplifier of a building including a branching function. More specifically, the present invention relates to in providing a CATV line amplifier or a satellite (wideband) line amplifier which amplifies an RF signal to output it to a distributor without a branching device having a connection terminal unit of a line amplifier when installing the inter-floor line amplifier through a line in a building such as an apartment or a building with many floors and, at the same time, to reduce the installation cost by easing the installation work and shortening the installation work time by connecting the line amplifier with a line amplifier installed inside the upper floor building.

Description

Inter-layer line amplifier of building including branching function

The present invention relates to an interlayer line amplifier of a building including a turn-off function, and more specifically, to install an interlayer line amplifier through a line in a building such as an apartment or building with a large number of floors, having a connecting connection terminal part of the line amplifier. CATV line amplifier or satellite to amplify the RF signal without equipment and output it to the distributor, and at the same time connect to the line amplifier installed inside the building on the upper floor to reduce installation cost and reduce installation cost. (Broadband) It is intended to provide a line amplifier.

Communication networks, for example, wired broadcasting (including satellite broadcasting) services and Internet services transmit broadband frequency signals to multiple termination devices through two-way CATV and HFC networks for communication. A splitter (T/0: Tap Off) and a splitter (SP: Splitter) are required.

The branching device is a connecting device that connects the middle of a line (main line) so that the line can be shared by multiple devices, and the divider is a divider used to distribute signals to two or more lines (branch lines). to be. In the above, in the CATV and HFC network for communication, the branching machine branches the signal to transmit a wideband frequency signal by connecting a plurality of incoming lines to service a plurality of customers, and the reference strength of the signal transmitted to the termination device is -10 dBmV ~ It should be able to transmit properly in the +15dBmV range.

However, the attenuation received by the signal varies greatly depending on the frequency of the transmitted signal. That is, the higher the frequency signal, the more attenuation is received and the higher frequency signal is transmitted in a smaller size than the lower frequency signal.

Therefore, depending on the distance of the trunk line and the incoming line, the size of the transmitted signal varies greatly depending on the frequency, so the frequency of some signals may exceed the range of the reception reference strength of the customer's termination device. It affects in the form of mutual interference, etc., and provides a cause of a significant decrease in service quality due to signal distortion and noise.

To solve this problem, a line amplifier such as a trunk bridge amplifier (TBA) is required.

The line amplifier is an amplifier used for a coaxial line, and is used to compensate for RF signal loss and distribute two or more signals. The configuration of the line amplifier includes a PAD (attenuator) that appropriately lowers the excessively input RF signal, an EQ (equalizer) compensating for the difference in attenuation characteristics between high and low frequency bands, and an amplifier that amplifies the signal. These are called amplification circuits.

The connection between the conventional line amplifier, the branch and the distributor is as shown in FIG. 1 of the accompanying drawings.

First, the signal received through the external antenna is input to the INPUT terminal of the branch 2 through a coaxial line, and the signal input to the INPUT terminal of the branch 2 is a branch terminal, that is, a bridge (BR) terminal While inputted to the INPUT terminal of the line amplifier 1 through a coaxial line connected, it is branched to another branch (a branch connected to a line amplifier of another layer) through the OUTPUT terminal of the branch 2.

And, the signal input to the line amplifier (1) is the RF signal excessively input through the PAD (attenuator) constituting the line amplifier (1) is lowered appropriately, the high frequency band through the EQ (equalizer) The difference between the attenuation characteristics and the low band is compensated, and after the signal is amplified through the amplifier, it is input to the INPUT terminal of the distributor 3 through a coaxial line connected to the OUTPUT terminal of the line amplifier 1, and multiple OUTPUT After each terminal is input to the INPUT terminals of other distributors through a coaxial line, it is provided to the corresponding follower (TV on each floor) on a coaxial line connected to the OUTPUT terminal of the corresponding distributor.

However, since the connection between the conventional line amplifying device 1 and the branch 2 and the distributor 3 is using a coaxial line, that is, a cable, a lot of connection and construction time is used, and the connection work is difficult. There is a problem.

In addition, since it is necessary to connect a line amplifier, a branch, and a distributor through a coaxial line and a connector as described above, there is a problem that a connection-related cost is high.

In addition, since the path connected through the coaxial line is formed long, there is a problem in that the line connection inside the premises transmission box is complicated and messy, and output loss and noise are generated compared to the signal input.

In order to solve this problem, the applicant has proposed an improvement plan through Patent No. 10-1110645.

That is, in the prior art, as shown in FIG. 2, the branching and distribution device 10 includes a branch circuit 10A and an input signal connecting the middle of the trunk line 2 so that the transmission line can be shared by multiple devices. A distribution circuit 10B for distributing signals to more than one branch line is disposed on one printed circuit board 11, and is provided in the branch terminal 12 and the distribution circuit 10B provided in the branch circuit 10A. The INPUT terminal 13 is connected to the INPUT terminal 1A and the OUTPUT terminal 1B provided in the line amplifier 1, but the branch circuit 10A has an RF input signal terminal 14 and a different branch (different layers). The output terminal 15 connected to the line amplifier) is connected, and the output terminal of the INPUT terminal 13 provided in the distribution circuit 10B is a driven output terminal 16 connected to each terminal device (TV on each floor, etc.) By providing, it is possible to significantly shorten the connection and construction time, and to simplify the connection and construction work.

However, in the case of FIG. 1, which is the prior art, the work of connecting the input terminal of the tap-off device connected to the line amplifier installed on the upper floor of the building with a cable is connected to the line amplifier as shown in FIG. Since it is necessary to perform the connection, the connection time is long, the connection and installation work is cumbersome, and the installation and construction costs are excessive, and the cost of the turnout is added, which indicates that the overall installation cost is excessive.

In addition, in the case of FIG. 2, which is the prior art, a branch circuit and a distribution circuit that distributes signals to two or more branch lines provide a branch and a distribution device for disposing the signal on one printed circuit board. When the structure of the distribution device is large and the place where the line amplifier is installed is narrow, it is not only convenient to install, but also the output terminal connected to another branch (line amplifier of different floor) protrudes in front of the branch and distribution device to connect to it. It is pointed out that a problem that it is very difficult to bend the cable to the upper layer and a branch circuit and a distribution circuit must be installed on one circuit board, so that the manufacturing cost of the branch and distribution device is raised.

Republic of Korea Registered Patent No. 10-1110645

In the present invention, in the installation of an interlayer line amplifier through a line in a building such as an apartment or building with a large number of floors, the RF signal is amplified and output to the distributor without a branch having a connecting terminal of an amplifier, and at the same time, the interior of the upper floor building The purpose is to provide a CATV line amplifier or a satellite line amplifier, including a tap-off device, which is intended to reduce installation cost by reducing installation time and installation work by connecting to an installed line amplifier.

The present invention is an attenuator, a line amplifier having an equalizer compensating for the difference in attenuation characteristics between high and low frequency bands and an amplifying circuit for amplifying signals in one amplifying circuit board, wherein the amplifying circuit board of the line amplifier is provided. A trunk cable output terminal connected to a line amplifier input terminal of the other floor on one side of the front side; An input terminal for inputting an RF external input signal; And a branch terminal having first to fifth contacts connected to the trunk cable output terminal on the amplified circuit board; Two switches having first to third contacts and fourth and fifth contacts that are connected to the input terminal; and an output terminal that connects the RF signal input through the input terminal to the distributor through switching of the switch. It is configured to output by amplifying or outputting the RF signal input through the input terminal to the line amplifier of the other layer without amplification, so that it can be connected to the line amplifier, or to amplify and output to the output terminal connected to the distributor at the same time. Is done.

The present invention amplifies the RF signal without a branch having a connecting connection terminal portion of a line amplifier and outputs it to a distributor, and at the same time, it connects to a line amplifier installed inside the building on the upper floor to improve the ease of installation work and the time to install the interlayer line amplifier. The installation cost can be reduced by shortening, and the size of the distributor can be reduced, so the manufacturing cost of the distributor can be reduced, as well as the ease of installation and cable work of the combination of the line amplifier and the distributor in a narrow place.

1 is a connection diagram of a conventional line amplifier, a branch, and a distributor.
2 is a cross-sectional view of a state in which a branch and a distribution device are coupled to a conventional line amplifier.
Figure 3 is a state diagram of a conventional line amplifier installed between the floors of a building.
Figure 4 is a combined configuration diagram of the interlayer line amplifier of a building including a branch according to the present invention.
5 is a state diagram of the installation of the inter-layer line amplifier of a building including a turn-off according to the present invention.

The present invention will be described in detail through the accompanying drawings.

The present invention provides an attenuator, a line amplifier (100) provided with an equalizer and amplifying circuit (110) for amplifying signals to compensate for the difference in attenuation characteristics between high and low frequency bands on one amplifying circuit board (100A). In the trunk amplifier output terminal (100-1) connected to the input terminal (200-1) of the line amplifier (200) of the other layer on the front side of the amplification circuit board (100A) of the line amplifier (100); An RF signal input terminal (100-2) for inputting an RF external input signal; Amplifying circuit board (100A) output terminal (100-3) for connecting to the distributor (100B) on the other side of the front; configured to include, but connected to the main cable output terminal (100-1) to the amplifying circuit board (100A) A branch terminal BR having a first contact a1 to a fifth contact a5; Install a switch (SW1) (SW2) having a first contact (b1) to a third contact (b3), a fourth contact (b4), and a fifth contact (b5) connected to the input terminal (100-2); By amplifying the RF signal input through the input terminal 100-2 through the switching of the switches SW1 and SW2 to the output terminal 100-3 connected to the distributor 100B or outputting the RF signal. The RF signal inputted through the terminal 100-2 is output to the line amplifier 200 of another layer without amplification to be interlayered with the line amplifier 100, or at the same time, an output terminal 100- connected to the distributor 100B. 3) can be configured to amplify and output.

In the above, the switch SW1 (SW2) can be used as a slide switch or a lamp-type switch, and the branch terminal BR has a first contact (a1) to a fifth contact (a5) to the amplifying circuit board 100A as described above. ) To be connected to the trunk cable output terminal (100-1), and the second contact (a2) of the branch terminal (BR) is switched between the first contact (b1) and the switch (SW1) of the switch (SW1). The first contact (a1) of the branch terminal (BR) is input to the signal input through the RF signal input terminal (100-2) for mutual communication by inputting the RF input signal-trunk cable output terminal (100-1) Output to the side can be input to the input terminal 200-1 of the line amplifier 200 of the other layer through the cable (C), in the connection state as described above and the third contact (a3) of the branch terminal (BR) When the fourth contact (a4) is interconnected through switching of the switch (SW2), the signal input through the RF signal input terminal (100-2) for inputting the RF input signal is amplified circuit of the amplifying circuit board (100A) ( It can be amplified and output to the output terminal 100-3 connected to the distributor 100B through 110, and the switch SW1 (SW2) is switched to switch the second contact (b2) of the switch SW1. And the third contact (b3) while simultaneously connecting the fourth contact (b4) and the fifth contact (b5) of the switch (SW2) to input the RF input signal without connection to the interlayer line amplifier (200). It is possible to amplify and output the signal input through the terminal 100-2 to the output terminal 100-3 connected to the distributor 100B through the amplifying circuit 110 of the amplifying circuit board 100A. .

In the above, the terminal output terminal of the distributor 100B is connected to each terminal device (such as a TV on each floor) with a cable, and the fifth contact a5 of the branch terminal BR may not be used.

The present invention having such a configuration is to install the branch terminal (BR) and the switch (SW1) (SW2) for switching the input signal to the line amplifier (100) to perform the present invention, so the line amplifier installed in the basement as shown in FIG. The cable (C) connected to the trunk cable output terminal (100-1) of (100) can be interconnected by a direct connection means for connecting to the input terminal (200-1) of the line amplifier (200) on the other floor without a branch. The RF signal inputted through the input terminal 100-2 through the switching of the switches SW1 and SW2 is amplified and output to the output terminal 100-3 connected to the distributor 100B, or the RF signal is input. The RF signal inputted through the terminal 100-2 is output to the line amplifier 200 of another layer without amplification to be interlayered with the line amplifier 100, or at the same time, an output terminal 100- connected to the distributor 100B. It is possible to amplify and output to 3), and also, the line amplifier 200 of the other layer and the line amplifier 200 of the next layer are continuously connected to each other as described above, and the switch is made like the line amplifier 100. The desired signal can be selected and output by switching (SW1) (SW2).

Therefore, the present invention amplifies the RF signal without a branch having a connecting connection terminal portion of the line amplifier 100 and outputs it to the distributor 100B, and at the same time, connects with the line amplifier 200 installed inside the upper floor building to inter-floor. The installation efficiency of the track amplifier 200 is shortened and the installation cost is shortened by reducing the installation time, and the size of the distributor 100B can be reduced, thereby reducing the manufacturing cost of the distributor 100B, as well as the track amplifier in a narrow place ( 100) The ease of installation and the cable (C) connection work can be conveniently performed by combining the distributor (100B) and the circuit is selected according to the line condition and the installation of the interlayer line amplifier through switching of the switches (SW1) (SW2). It can be used to shorten the installation work.

It should be noted that the description of the invention described above is merely an example for the purpose of understanding the invention, and is not intended to determine the scope of the invention. The scope of the present invention is defined by the matters described in the claims, and it should be understood that simple modifications or changes to components within the scope of the claims are within the protection scope of the present invention.

100, 200: line amplifier 110: amplification circuit
100A: Amplified circuit board 100-1: Trunk cable output terminal
100-2: RF signal input terminal 100-3: Output terminal
100B: divider

Claims (2)

In the line amplifier (100) provided with an attenuator, an equalizer that compensates for the difference in attenuation characteristics between high and low bands of frequency, and an amplifying circuit (110) for amplifying a signal on one amplifying circuit board (100A), A trunk cable output terminal 100-1 connected to the input terminal 200-1 of the line amplifier 200 of the other layer on one side of the front side of the amplifying circuit board 100A of the line amplifier 100; An RF signal input terminal (100-2) for inputting an RF external input signal; Amplifying circuit board (100A) output terminal (100-3) for connecting to the distributor (100B) on the other side of the front; configured to include, but connected to the main cable output terminal (100-1) to the amplifying circuit board (100A) A branch terminal BR having a first contact a1 to a fifth contact a5; Install a switch (SW1) (SW2) having a first contact (b1) to a third contact (b3), a fourth contact (b4), and a fifth contact (b5) connected to the input terminal (100-2); By amplifying the RF signal input through the input terminal 100-2 through the switching of the switches SW1 and SW2 to the output terminal 100-3 connected to the distributor 100B or outputting the RF signal. The RF signal inputted through the terminal 100-2 is output to the line amplifier 200 of another layer without amplification to be interlayered with the line amplifier 100, or at the same time, an output terminal 100- connected to the distributor 100B. 3) Floor amplification between buildings, including a turn-off function, characterized in that it is configured to be amplified and output. The RF input signal according to claim 1, wherein the second contact (a2) of the branch terminal (BR) is made to conduct with each other by switching between the first contact (b1) of the switch (SW1) and the switch (SW1). The signal input through the RF signal input terminal (100-2) is output to the first contact (a1) of the branch terminal (BR)-the trunk cable output terminal (100-1), and the line of the other layer through the cable (C) It is possible to input to the input terminal 200-1 of the amplifier 200, and the third contact a3 and the fourth contact a4 of the branch terminal BR are interconnected through switching of the switch SW2. When the RF input signal is input through the RF signal input terminal (100-2), the output terminal (100-3) for connecting to the distributor (100B) through the amplifying circuit 110 of the amplifying circuit board (100A) Amplified to output, and switch the switch (SW1) (SW2) to connect the second contact (b2) and the third contact (b3) of the switch (SW1) and at the same time the fourth contact of the switch (SW2) (b4) and the fifth contact (b5) are connected to amplify the signal input through the input terminal (100-2) for inputting an RF input signal without connection to the interlayer line amplifier (200). An inter-layer line amplifier of a building including a tap-off function, characterized in that it is configured to amplify and output to the output terminal (100-3) connected to the distributor (100B) through the circuit (110).

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