KR200182787Y1 - A repeater system - Google Patents

Abstract

The present invention discloses a repeater system that is installed to solve the radio wave in the room difficult to reach the RF signal transmitted from the base station in the mobile communication system. In an exemplary embodiment of the present repeater system, a forward tee signal transmitted from a base station is received through an antenna 50 and connected in parallel with a bias tee 200 and a bias tee 200 that are transmitted through a transmission line. Power supply means for supplying power to the 200, the bias tee 200 and the repeater 100 is mounted therein the bias tee 300 and the bias tee 300 to receive the forward RF signal through the transmission line It is made, including.

The repeater system is characterized by transmitting RF signal and power through one transmission line. And since the power line is not directly connected to the repeater, no separate power construction is required for installation, and the bias tee is convenient to install and maintain, and it can be installed in a safe space that is invisible to the general public. .

In addition, since only the transmission line and the repeater are visible, it is possible to install an environment-friendly repeater. It is not necessary to install a separate power supply when moving the repeater, and it is easy to separate the antenna and the bias tee so that it can be easily installed and moved to another place. Since the arrester is connected to the bias tee, it can be used for external abnormalities such as lightning and surge. It can protect the repeater from voltage.

Description

Repeater system

The present invention is a technology that can supply the information signal and power to the repeater using a single transmission line (Cable) without the need to connect the transmission line and the power line to the repeater to transmit the RF signal, which is an information signal when the repeater is installed It is about. In particular, the present invention relates to a relay connected with a bias tee.

In general, in the mobile communication (Cellular, PCS, WLL, IMT-2000) system, a repeater is mainly installed to solve the radio wave deterioration phenomenon in a room where it is difficult to reach radio waves, thereby enabling smooth communication.

The mobile communication repeater must supply power from outside for normal operation and generally use the power supply cable to supply power. In addition, a base station side transmission line for receiving a signal transmitted from the base station via an antenna and connecting to the repeater, and a terminal side transmission line connected to the repeater for transmitting a signal transmitted from the terminal (cell phone) to the base station is required.

In this case, the power line, base station side transmission line, and terminal side transmission line should be connected to the repeater and the repeater is mainly installed in a high place (ceiling, wall, column). There was a downside.

1 shows a connection state of the above-described conventional repeater. As shown in Figure 1, in the prior art, the repeater 100 is a forward transmission line 60 for receiving the base station side signal through the antenna 50 and a reverse transmission line for transmitting the signal through the antenna 50 'to the terminal side ( 70) and the power supply line 80. The repeater 100 is mainly installed at a height higher than a person's height in order to provide a smooth communication, and such a place is usually without a power outlet, so when installing the repeater 100, there is an inconvenience that a power outlet construction must be performed together. In case of moving the repeater 100 to another place due to a problem in the initial installation place, there was a disadvantage in that the power outlet construction had to be performed again.

3 shows an example of installation of a repeater according to the prior art. In other words, when the transmission line 60, 70 and the power line 80 is installed together on the wall or the ceiling, there is a disadvantage that it does not match the surrounding environment to harm the aesthetics.

As described above, when the repeater 100 is installed, it is inconvenient to connect the transmission lines 60 and 70 and the power line 80 to which the RF signal as the information signal is transmitted, respectively, to the repeater 100.

The present invention is easy to install and harmonizes with the surrounding environment by using a circuit that combines the information signal and the power in one transmission line and a circuit that separates the power and the information signal inside the repeater to solve the problems of the prior art. An object of the present invention is to provide a repeater that is connected to a bias tee.

Other objects and advantages of the present invention will become more apparent upon reading the following detailed description of the invention and with reference to the accompanying drawings.

1 is an exemplary view showing a connection state of a conventional repeater.

Figure 2 is an exemplary view showing a connection state of the repeater system of the present invention.

Figure 3 is an installation example of a repeater according to the prior art.

Figure 4 is an installation example of a repeater system according to the present invention.

5 is a detailed configuration diagram of the subject innovation bias tee.

6 is a detailed configuration diagram of the repeater of the present invention.

<Description of the code | symbol about the principal part of drawing>

50,50 ': antenna 60,60' ,, 60 '' ': forward side transmission line

60 '', 70,70 ', 70' ': reverse transmission line

80,80 ', 80' ': Power line 100: Repeater

200,300: bias tee 500: lightning arrester circuit

600, 1100: power off circuit 700: power supply circuit

800: transmission line

900,900 ', 900' ', 900' '', 900 '' '': Transmission line connection terminal

1000,1000 ': power supply terminal 1200: power disconnect circuit

One preferred embodiment of the repeater system according to the present invention is a repeater system which is installed in the mobile communication system to solve the radio wave in the room difficult to reach the RF signal transmitted from the base station, the forward RF signal transmitted from the base station A first bias tee received through a first antenna and transmitted through a first transmission line; Power supply means connected in parallel with the first bias tee to supply power to the first bias tee; A second bias tee receiving the forward RF signal through the first bias tee and the second transmission line; And a repeater having the second bias tee mounted therein.

In the present invention, the first bias tee comprises: an arrester circuit connected to the first transmission line in parallel to prevent an abnormal voltage from the outside; A first power cut-off circuit installed in parallel with the arrester circuit to pass the forward RF signal and to cut off the power supplied from the power supply means; And a power supply circuit connected in parallel with the first power cut-off circuit to pass the power supplied from the power supply means and to block the forward RF signal.

The arrester circuit may include an RF choke circuit, which is a short circuit; And one side is connected to the RF choke circuit and the other side is provided with a grounded arrester.

The abnormal voltage is an impulse signal of a DC component of lightning or surge, and the RF choke circuit preferably transmits the forward RF signal in the direction of the first power cut-off circuit without insertion loss or electrical degradation.

The arrester is preferably short-circuited upon intrusion of the abnormal voltage to protect the repeater from the abnormal voltage.

Preferably, the second transmission line transmits the RF signal and the power supplied from the power supply means without affecting each other.

The second bias tee may include: a second power cut-off circuit configured to pass only a forward RF signal and a forward RF signal inputted from the base station to the repeater through the second transmission line toward the terminal and cut off power; And a power separation circuit for connecting the power cut off in the second power cut-off circuit to a power supply means inside the repeater and for preventing the forward RF signal from being supplied to the power supply means. .

Preferably, the third transmission line transmits the forward RF signal and power without affecting each other.

The mobile communication system preferably includes a cellular system, a PCS system, a WLL system, and an IMT-2000 system.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings. 2 is an exemplary view showing a connection state of the repeater of the present invention. The relay 100 transmits the base station-side signal through the antenna 50 and the bias tee 200 and 300 through the forward-side transmission line and the terminal-side signal through the antenna 50 '. It is connected to the side transmission line and the power supply line 80. Portion 100 ', shown by the dotted line, indicates a set consisting of bias tee 200, transmission line and power outlet.

One of the features of the present invention is that the power line is connected to the power line to the bias tee 200 that was previously connected directly to the repeater 100. This makes maintenance, repair, management, and movement of the repeater 100 convenient.

4 shows an example of installation of a repeater according to the present invention. As shown in FIG. 4, the repeater 100 according to the present invention uses a repeater (B) using a bias tee 200 that combines an information signal (RF signal) of a transmission line and a power source of a power line without affecting each other. 100) Easy to install At this time, the set 100 'can be installed in an invisible place in the building. Therefore, in this case, only the repeater 100 and the transmission line are exposed to the outside, thereby enabling environmentally friendly installation.

In addition, a circuit for an arrester for protecting the repeater 100 from external lightning or surges transmitted through the antenna 50 is mounted in the repeater 100 to increase the reliability of the repeater 100.

5 shows a detailed configuration of the bias tee according to the present invention, Figure 6 shows a detailed configuration of the repeater according to the present invention. The bias tee 200 of FIG. 5 couples an information signal (RF signal) and a power supply, and the repeater 100 of FIG. 6 includes a bias tee 300 that separates an information signal (RF signal) and a power supply therein. have. That is, the bias tee 200 couples the information signal and the power, and the bias tee 300 separates the information signal and the power.

In the drawing, the solid line represents the forward information signal, and the dotted line represents the reverse information signal. And the thick arrows indicate power. Thick lines 60 '(60') (60 '' ') 70' and 70 '' represent transmission lines, and (900) (900 ') (900' ') (900' '') Reference numeral 900 '' '' denotes a transmission line connecting terminal and reference numeral 1000 denotes a power supply terminal. Reference numeral 500 denotes an arrester circuit, 600 denotes a power interruption circuit, and 700 denotes a power supply circuit.

Accordingly, the bias tee 200 includes an arrester circuit 500 that protects the circuit from a sudden impact signal from the outside such as a lightning strike, a power blocking circuit 600 that passes only the information signal and cuts off the power, and passes only the power and the information signal. The power supply circuit 700 includes a transmission line 60 ″, a transmission line 60 ″ at which power and an information signal are simultaneously transmitted, a transmission line connection terminal 900, 900 ′, and a power supply terminal 1000.

On the other hand, the repeater 100 is a power cut-off circuit 1100 that passes only the information signal and cuts off the power, a power separation circuit 1200 that passes only the power and blocks the information signal, and a transmission line that simultaneously transmits the power and the information signal ( 60 '&quot;), transmission line connection terminals 900 &quot;, 900 &quot;, 900 &quot; &quot; and a power supply terminal 1000'.

The arrester circuit 500 is composed of an RF choke circuit and an arrester which are open circuits for the information signal (RF signal) and a short circuit for the DC impulse such as lightning or surge. have. The RF choke circuit transmits the information signal (RF signal) in the direction of the power cut-off circuit without insertion loss or electrical deterioration when the information signal (RF signal) is input from the outside, and impulses of DC components such as lightning and surge When it is introduced into the transmission line (60 ') is a short circuit characteristic of the grounding through the arrester to protect the repeater (100).

The power cutoff circuit 600 is a circuit that passes only the information signal (RF signal) and cuts off the power. The power cutoff circuit 600 blocks leakage of power from the bias tee 200 toward the base station, and impulse signals of DC components such as lightning and surge. It serves to suppress the transmission to the repeater 100.

The power supply circuit 700 is a circuit that passes only power and blocks the information signal (RF signal), and combines the power supplied from the outside to the bias tee 200 to the transmission line through which the information signal (RF signal) is transmitted. do.

The transmission line 60 ″ is a line through which a power supply and an information signal (RF signal) do not affect each other and are simultaneously transmitted. Since the power source and the information signal are different in frequency, the power source and the information signal can be transmitted without affecting each other in one transmission line 60 ″.

The power cutoff circuit 1100 is a circuit having the same function as the power cutoff circuit 600, and the forward information signal RF supplied to the bias tee 300 inside the repeater 100 through the bias tee 200 at the base station side. Signal) and only the forward information signal (RF signal) passes in the direction of the terminal (solid arrow) and the power is cut off.

The power disconnect circuit 1200 is similar to the power supply circuit 700, and connects the power cut off from the power cutoff circuit 1100 to the power supply unit inside the repeater 100, and at the same time, the information signal (RF signal) is connected to the power supply unit. It is a circuit to block inflow.

The transmission line 60 '' 'is a line through which the power supply and the information signal (RF signal) are simultaneously input to the repeater 100 without affecting each other.

The present invention may be variously modified and may take various forms and the detailed description of the present invention has been described only with respect to specific embodiments thereof. It is to be understood, however, that the present invention is not limited to the particular form referred to in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

Since the power line is not directly connected to the repeater, no separate power construction is required for installation. The bias tee is easy to install and maintain and is easy to operate and maintain because it can be installed in a safe space that is invisible to the public. And since only the transmission line and the repeater are visible, it is possible to install an environment-friendly repeater. When the repeater moves, there is no need to install a separate power supply, and the antenna and the bias tee can be easily separated, so it can be easily moved to another place. Since the arrester is connected to the bias tee, it can protect the repeater from external abnormal voltage such as lightning and surge.

Claims (7)

In the repeater system installed to solve the radio wave in the room difficult to reach the RF signal transmitted from the base station in the mobile communication system, A first bias tee receiving the forward RF signal transmitted from the base station through the first antenna and transmitted through the first transmission line; Power supply means connected in parallel with the first bias tee to supply power to the first bias tee; A second bias tee receiving the forward RF signal through the first bias tee and the second transmission line; And And a repeater with the second bias tee mounted therein. The method of claim 1, wherein the first bias tee is An arrester circuit connected to the first transmission line in parallel to prevent an abnormal voltage from the outside; A first power cut-off circuit installed in parallel with the arrester circuit to pass the forward RF signal and to cut off the power supplied from the power supply means; And And a power supply circuit connected in parallel with the first power interrupting circuit to pass power supplied from the power supply means and to block the forward RF signal. 3. The arrester circuit of claim 2, wherein the arrester circuit RF Choke circuit which is a short circuit; And A repeater system, one of which is connected to the RF choke circuit and the other of which is provided with a grounded arrester. 4. The repeater system of claim 3, wherein the RF choke circuit transmits the forward RF signal in the direction of the first power off circuit without insertion loss or electrical degradation. 3. The repeater system according to claim 2, wherein the arrester protects the repeater from an abnormal voltage by shorting the intrusion of the abnormal voltage. The method of claim 1, wherein the second bias tee is A second power cut-off circuit for passing only a forward RF signal and a forward RF signal among the forward RF signal and the power inputted through the first bias tee and the second transmission line toward the terminal and blocking the power; And And a power disconnecting circuit for connecting the power cut off in the second power interrupting circuit to a power supply means inside the repeater and simultaneously preventing the reverse RF signal from being supplied to the power supply means. 2. The repeater system of claim 1, wherein the mobile communication system comprises a cellular system, a PCS system, a WLL system, and an IMT-2000 system.