KR20130134731A - Hybrid coupler and mimo base station system using the hybrid coupler - Google Patents

Abstract

The present invention relates to a hybrid coupler and a MIMO base station using the same. According to the present invention, the hybrid coupler which is installed between remote radio equipment and an antenna in a base station system and facilitates multi input and multi output comprises at least two input terminals and at least two output terminals. Each of the at least two output terminals outputs the same signal with different phase difference when the at least two input terminals receives the same signal input, thereby inducing MIMO effects.

Description

Hybrid coupler and multi-input / output base station system using same {Hybrid coupler and MIMO base station system using the hybrid coupler}

The present invention relates to a multiple input / output base station system, and more particularly, to a hybrid coupler applied to a multiple input / output base station system and a multiple input / output base station system using the same.

In 1996, after the world's first commercial CDMA mobile service in Korea, the technological advancement of 15 years led to the commercialization of 4G Long Term Evolution (LTE) in 2011 from 2G to 3G. The key to this technological change is the speed of data service. Initially, the purpose of the mobile communication service was limited to voice calls, but the popularity of the Internet and the high-speed data transmission requirements are spreading to the wireless mobile communication service. Currently, the LTE method realizes high-speed data transmission of 100 Mbps while moving. The current 4G data rate has been possible because of convergence between various wireless access technologies such as communication standards such as WiMAX of LTE IEEE of 3GPP reflecting communication technologies of Orthogonal Frequency Division Multiplexing (OFDM) and Multiple-Input Multiple-Output (MIMO) This is because of changes in networks consisting of miniaturized base stations such as remote radio heads (RRHs) or femtocells in wired / wireless convergence and large base stations.

In particular, the RRH, which divides existing cells into micro cells using small base stations in the area covered by medium and large base stations, enters 4th generation mobile communication such as LTE and has established itself as a standard to replace existing base station methods. have. In the existing base station consisting of a base band (Digital Unit, DU) and a radio unit (RU), only the radio part is separated using an optical interface, and the base station is provided with several remote radio devices in one control part. It can improve investment cost, miniaturization, power saving, and utility of various network structure and wireless network design. Therefore, mobile operators are making a lot of investment in RRH system for smooth service of 4G LTE.

In addition, the MIMO technology is a multi-antenna signal processing method that transmits and receives data using multiple antennas in a mobile environment, and simultaneously transmits and receives data through multiple antennas, thereby extending the range of wireless communication and greatly improving the speed to increase transmission efficiency. to be. By using such MIMO technology, N antennas are arranged at the transmitting end and N antennas are also arranged at the receiving end to send a signal, thereby increasing the transmission rate by N times.

1 is a diagram illustrating a configuration of a base station system according to the prior art.

Referring to FIG. 1, the base station system 100 includes a base station (LTE BTS) 110 of LTE standard and a remote radio equipment (LTE RRH) 120 separated using the optical interface 111 from the base station 110. And the first and second coaxial cables 131 and 132 and the first and second antenna arrays 141 respectively installed in the first and second ports 121 and 122 for the application of MIMO technology. 142 is provided.

In the base station system 100, a second coaxial cable 132 is additionally installed and a second coaxial cable 132 is connected to the second coaxial cable 132 by applying MIMO technology for improved data service speed in the conventional 2G or 3G communication standard. The two antenna array 142 is expanded and constructed.

However, in the conventional base station system 100 to which the above-described MIMO technology is applied, since the installation of the second coaxial cable 132 and the expansion of the antenna array 142 are required in addition to the existing coaxial cable and antenna, the network operator moves. For telecom operators, there is a problem in that investment cost is increased due to additional infrastructure construction.

Therefore, in the technical field of the present invention, there is an urgent need for a technology development capable of implementing MIMO effects while minimizing additional infrastructure construction costs in a base station system.

The present invention was devised to solve the problems of the prior art as described above, and can realize the MIMO effect without additionally installing a coaxial cable or an additional antenna to the base station system, thereby reducing the installation and operation costs of the base station system. An object of the present invention is to provide a hybrid coupler and a multiple input / output base station system using the same.

Hybrid coupler according to an aspect of the present invention for achieving the above technical problem, in the hybrid coupler is installed between the remote radio equipment and the antenna of the base station system to enable multiple input and output, at least two input terminals and at least two An output terminal, wherein the at least two output terminals each output together the same signal having a phase difference from each other with respect to the same signal input from the at least two input terminals to induce a MIMO effect. do.

Preferably, the at least two output terminals output a delay of 90 degrees to 180 degrees with respect to the same signal input to the at least two input terminals, respectively.

According to another aspect of the present invention, a hybrid coupler is provided between a remote wireless device and an antenna of a base station system in a hybrid coupler for enabling multiple inputs and outputs, at least two input terminals and at least one And an output terminal and a termination terminal, wherein the at least one output terminal outputs the same signal inputted from the at least two input terminals with the same signal having a different phase difference from each other to induce a MIMO effect. It is done.

Preferably, the at least one output terminal outputs the phase delayed by 90 degrees and 180 degrees with respect to the same signal input to the at least two input terminals, respectively.

Preferably, the termination terminal, the termination resistor is coupled to the end, and is further provided with an RF filter for blocking the inflow of the RF signal of a specific frequency band between the termination terminal and the termination resistor.

Preferably, the RF filter blocks a parasitic distortion signal of a passive intermodulation distortion (PIMD) generated by being reflected by the termination resistor.

Preferably, the RF filter is designed to block the frequency band of the parasitic distortion signal.

Technical problem of the present invention can be achieved by a base station remote radio equipment or antenna system including the above-described hybrid coupler.

According to an aspect of the present invention, there is provided a multiple input / output base station system comprising: a base station having a specific communication standard; A wireless remote device separated into an optical interface at the base station to perform signal processing for RF communication, and having at least two input / output terminals; A base station antenna array for transmitting an RF signal output from the remote wireless equipment through a coaxial cable line; And at least two input terminals connected between the remote wireless equipment and the base station antenna array, the at least two input terminals connected to at least two input / output terminals of the remote wireless equipment, and the at least two output terminals connected to the coaxial cable line. And at least two output terminals of the hybrid coupler together to output the same signal having a phase difference from each other with respect to the same signal input from the at least two input terminals to induce a MIMO effect. Characterized in that.

According to another aspect of the present invention for achieving the above technical problem, a multiple input and output base station system, a base station of a specific communication standard; A wireless remote device separated into an optical interface at the base station to perform signal processing for RF communication, and having at least two input / output terminals; A base station antenna array for transmitting an RF signal output from the remote wireless equipment through a coaxial cable line; And at least two input terminals connected between the remote wireless equipment and the base station antenna array and connected to at least two input / output terminals of the remote wireless equipment, and at least one output terminal and a termination terminal connected to the coaxial cable line. And at least one output terminal of the hybrid coupler, together with the same signal inputted from the at least two input terminals to output the same signal having a different phase difference from each other, thereby producing a MIMO effect. It is characterized by inducing.

Preferably, when the same signal is output from at least two input / output terminals of the remote wireless device, the hybrid coupler gives a 90 degree phase difference to the corresponding signals and transmits the same signal to the base station antenna array.

Preferably, at least one output terminal of the hybrid coupler outputs a phase delayed by 90 degrees and 180 degrees with respect to the same signal input to the at least two input terminals, respectively.

According to another aspect of the invention, the terminating terminal of the hybrid coupler, the terminating resistor is coupled to the end, and is further provided with an RF filter for blocking the inflow of the RF signal of a specific frequency band between the terminating terminal and the terminating resistor.

Preferably, the RF filter of the hybrid coupler blocks a parasitic distortion signal of a passive intermodulation distortion (PIMD) generated by being reflected by the termination resistor.

Preferably, the RF filter is designed to block the frequency band of the parasitic distortion signal.

According to the present invention, the MIMO effect can be realized through the hybrid coupler without additionally laying the coaxial cable or expanding the antenna. Therefore, the number of products constituting the base station system is reduced, the system can be simplified, and the investment cost for infrastructure construction can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and, together with the description, And shall not be interpreted.
1 is a diagram illustrating a configuration of a base station system according to the prior art.
2 is a diagram illustrating a configuration of a general hybrid coupler.
3 is a diagram illustrating a configuration of a hybrid coupler according to the present invention.
4 is a diagram illustrating a configuration of a multiple input / output base station system to which a hybrid coupler is applied according to an aspect of the present invention.
5 is a diagram illustrating a configuration of a multiple input / output base station system to which a hybrid coupler is applied according to another aspect of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

2 is a diagram illustrating a configuration of a general hybrid coupler.

As shown in FIG. 2, the general hybrid coupler 30 includes first and second input terminals 31 and 32 and first and second output terminals 33 and 34. The hybrid coupler 30 has a signal divided in half by the first and second output terminals 33 and 34 when a signal is input to any one of the first and second input terminals 31 and 32. Will be output respectively.

For example, when the A signal having the same magnitude is input to the first and second input terminals 31 and 32, the A signal input to the first input terminal 31 is connected to the first and second output terminals. 33 and 34 respectively output signals having the magnitude of A / 2. In this case, an A / 2 signal having a phase delay of -90 degrees is output to the first output terminal 33, and an A / 2 signal having a phase delay of -180 degrees is output to the second output terminal 34. On the other hand, the A signal input to the second input terminal 32 outputs an A / 2 signal having a phase delay of -180 degrees at the first output terminal 33 and a phase delay of -90 at the second output terminal 34. A / 2 signal is outputted.

The hybrid coupler 30 may use both output terminals 33 and 34, but may also use only one of the output signals. In this case, a termination resistor is installed at one end of the two output terminals 33 and 34.

However, in such a general hybrid coupler 30, the parasitic distortion signal due to the passive intermodulation distortion (PIMD) generated by the input signal reflected by the termination resistor may be introduced again, which acted as a major cause of signal failure.

In addition, conventionally, a long coaxial cable is provided between the output terminal and the termination resistor in order to weaken the parasitic distortion signal of the PIMD. However, such a conventional method did not sufficiently remove the parasitic distortion signal, and in particular, there was a problem in that the coaxial cable had to be installed considerably longer. This not only increases the cost burden but also takes up a lot of space.

Accordingly, in the present invention, in order to solve the problems described above, a parasitic distortion signal of PIMD generated from the termination resistor is provided by installing an RF filter that can block a signal of a specific frequency band on the terminal side of the output resistor of the hybrid coupler. We propose a configuration that can block the source. Hereinafter, a configuration of a hybrid coupler according to the present invention will be described with reference to the drawings.

3 is a diagram illustrating a configuration of a hybrid coupler according to the present invention.

Referring to FIG. 3, the hybrid coupler 300 according to the present invention includes four terminals, and first and second input terminals 311 and 312 are provided at one side thereof, and a single output terminal at the other side thereof. 321 and terminal 322 are provided. However, the present invention is not limited thereto, and the output terminal 321 may not be configured as a single unit, but the termination terminal 322 may also be configured as two output terminals.

The first and second input terminals 311 and 312 operate as terminals to which an RF signal is input. The first and second input terminals 311 and 312 may be inputted with an RF signal to any one thereof, but the same RF signal may be input to the first and second input terminals 311 and 312 together. In addition, RF signals input to the first and second input terminals 311 and 312, respectively, are divided and output to the output terminal 321 and the termination terminal 322 on the other side.

The single output terminal 321 operates as a terminal for outputting RF signals input to the first and second input terminals 311 and 312. The output terminal 321 outputs the magnitude of the RF signal input to the first and second input terminals 311 and 312 as a signal having a half size, and the RF input to the first input terminal 311. The phase is delayed by 90 degrees with respect to the signal, and the phase is delayed by 180 degrees with respect to the RF signal input to the second input terminal 312. That is, when the same signal is simultaneously input to the first and second input terminals 311 and 312, the output terminal 321 can output two signals having a phase difference of 90 degrees and half of the size together. .

The single termination terminal 322 may operate as a terminal for outputting RF signals input to the first and second input terminals 311 and 312 in the same way as the output terminal 321, but terminates at the terminal thereof. The resistor 330 is coupled to terminate the input RF signal. That is, the RF signal output to the termination terminal 322 is terminated by the termination resistor 330.

Meanwhile, the termination resistor 330 may generate a passive intermodulation distortion (PIMD) while reflecting the RF signal being terminated without disappearing, and may cause parasitic distortion of the PIMD to flow back into the termination terminal 322. There was.

Hybrid coupler 300 according to the present invention is to solve the problem caused by the PIMD RF filter 340 to block the inflow of the RF signal of a specific frequency band between the termination terminal 322 and the termination resistor 330 The structure to install is employ | adopted.

The RF filter 340 may block a parasitic distortion signal of the PIMD generated by being reflected by the termination resistor 330 by performing a function of blocking an RF signal of a specific frequency band. In this case, the RF filter 340 is preferably designed to block the frequency band of the parasitic distortion signal.

The hybrid coupler 300 according to the present invention described above may be applied to a base station system 200 capable of multiple input / output. Hereinafter, the configuration of the base station system 200 will be described with reference to FIGS. 4 and 5.

4 and 5 are diagrams illustrating a configuration of a multiple input / output base station system to which a hybrid coupler according to the present invention is applied.

First, referring to FIG. 4, the base station system 200 according to the present invention is a base station (eg, 4G LTE BTS) 210 having a specific standard, and separated from the base station 210 into an optical interface 211 by RF communication. RF output from the remote wireless device 220 through a coaxial cable line 231 connected to the remote wireless device (eg, 4G LTE RHH) 220 to perform the signal processing for the remote wireless device 220 And a base station antenna array 240 for transmitting a signal, and the remote wireless device 220 is provided with two input / output terminals 221 and 222 for multiple input and output, and the remote wireless device 220 and the base station. It is configured to include a hybrid coupler 300 is installed between the antenna array 240.

Multiple Input / Output Technology The core of the so-called MIMO technology is to enable multiple inputs and outputs at the same time. In the prior art, a coaxial cable line and an antenna were added, but in the present invention, a phase delay is achieved through the hybrid coupler 300. By configuring the same signal to be applied to the coaxial cable line 231 in common, it is possible to implement the effects of the MIMO technology without additional cost.

In addition, as illustrated in FIG. 5, one output terminal of the hybrid coupler 300 may be terminated to constitute a termination terminal 322. In this case, the hybrid coupler 300 has a first and second input terminal 311, 312 is connected to the first and second input and output terminals (221, 222) of the remote wireless device 200, respectively, An output terminal 321 is connected to the coaxial cable line 231. Then, the remaining terminal 322 is coupled to the termination resistor 330 at the end to terminate the output RF signal. In this case, an RF filter 340 is provided between the termination terminal 322 and the termination resistor 330 to block the parasitic distortion signal of the PIMD from flowing into the remote wireless device 220.

When the same RF signal is output from the first and second input / output terminals 221 and 222 of the remote wireless device, the hybrid coupler 300 gives a phase difference of 90 degrees with respect to the corresponding RF signals to the coaxial cable line 231. It serves to deliver. That is, the output terminal 321 of the hybrid coupler 300 delays the phase by 90 degrees and 180 degrees with respect to the same RF signal input to the first and second input terminals 311 and 312, respectively.

In addition, the RF filter 340 installed in the termination terminal 322 of the hybrid coupler 300 blocks the parasitic distortion signal of the PIMD generated by being reflected by the termination resistor 330. In this case, the RF filter 340 is preferably designed to block the frequency band of the parasitic distortion signal.

Through such a configuration, the base station system 200 of the multiple input / output method according to the present invention is a single signal of the same signal having a phase difference of 90 degrees through the hybrid coupler 300 that can fundamentally block the inflow of parasitic distortion signal of the PIMD By being able to transmit to the coaxial cable line 231, it is possible to implement a stable MIMO effect without the installation of additional coaxial cable line or expansion of the base station antenna. Therefore, it is possible to maximize network efficiency at a low construction cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be understood that various modifications and changes may be made without departing from the scope of the appended claims.

200: base station system 210: base station
220: remote wireless equipment 300: hybrid coupler

Claims (16)

In the hybrid coupler installed between the remote radio equipment and the antenna of the base station system to enable multiple input and output,
At least two input terminals and at least two output terminals,
And the at least two output terminals output the same signal having different phase differences from each other with respect to the same signal inputted from the at least two input terminals to induce a MIMO effect. The method of claim 1,
The at least two output terminals,
And a phase delay of 90 degrees and 180 degrees for the same signal inputted to the at least two input terminals, respectively. In the hybrid coupler installed between the remote radio equipment and the antenna of the base station system to enable multiple input and output,
At least two input terminals and at least one output terminal and a termination terminal,
And the at least one output terminal outputs the same signal inputted from the at least two input terminals together with the same signal having a different phase difference from each other to induce a MIMO effect. The method of claim 3,
The at least one output terminal,
And a phase delay of 90 degrees and 180 degrees for the same signal inputted to the at least two input terminals, respectively. The method of claim 3,
The terminal terminal is,
Termination resistor is coupled to the end, and the hybrid coupler, characterized in that the RF filter for blocking the inflow of the RF signal of a specific frequency band between the termination terminal and the termination resistor. The method of claim 5,
The RF filter is,
And a parasitic distortion signal of a passive intermodulation distortion (PIMD) generated by being reflected by the termination resistor is blocked. The method according to claim 6,
The RF filter is,
And a hybrid coupler designed to block a frequency band of the parasitic distortion signal. A base station remote radio equipment for inducing a MIMO effect using a hybrid coupler according to any one of claims 1 to 7. An antenna system for inducing a MIMO effect by using a hybrid coupler according to any one of claims 1 to 7. In the base station system capable of multiple input and output,
A base station of a specific communication standard;
A wireless remote device separated into an optical interface at the base station to perform signal processing for RF communication, and having at least two input / output terminals;
A base station antenna array for transmitting an RF signal output from the remote wireless equipment through a coaxial cable line; And
A hybrid coupler installed between the remote wireless device and the base station antenna array, the hybrid coupler having at least two input terminals connected to at least two input / output terminals of the remote wireless equipment and at least two output terminals connected to the coaxial cable line Including;
The at least two output terminals of the hybrid coupler are each outputted together with the same signal having a phase difference from each other with respect to the same signal input from the at least two input terminals to induce a MIMO effect. I / O base station system. In the base station system capable of multiple input and output,
A base station of a specific communication standard;
A wireless remote device separated into an optical interface at the base station to perform signal processing for RF communication, and having at least two input / output terminals;
A base station antenna array for transmitting an RF signal output from the remote wireless equipment through a coaxial cable line; And
It is installed between the remote wireless device and the base station antenna array, and has at least two input terminals connected to at least two input / output terminals of the remote wireless equipment, and at least one output terminal and a termination terminal connected to the coaxial cable line. Including a hybrid coupler;
The at least one output terminal of the hybrid coupler outputs the MIMO effect by outputting together the same signal having a different phase difference from each other with respect to the same signal input from the at least two input terminals. system. The method according to claim 10 or 11,
The hybrid coupler,
When the same signal is output from at least two input and output terminals of the remote radio equipment, the multiple input and output base station system to give a 90 degree phase difference to the base station antenna array. The method of claim 12,
At least one output terminal of the hybrid coupler,
And delaying a phase by 90 degrees or 180 degrees with respect to the same signal inputted to the at least two input terminals, respectively. 12. The method of claim 11,
Termination terminals of the hybrid coupler,
Termination resistor is coupled to the terminal, and multiple input and output base station system characterized in that the RF filter for blocking the inflow of the RF signal of a specific frequency band between the termination terminal and the termination resistor. 15. The method of claim 14,
RF filter of the hybrid coupler,
And a parasitic distortion signal of a passive intermodulation distortion (PIMD) generated by being reflected by the termination resistor is blocked. 16. The method of claim 15,
The RF filter is,
Multiple input / output base station system characterized in that designed to block the frequency band of the parasitic distortion signal.

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