KR102382640B1 - Wireless communication apparatus having cross-polarization canceler - Google Patents

Abstract

The present invention relates to a wireless communication device for canceling cross polarization, and more particularly, by installing gain conversion and phase shifting amplifiers on horizontal and vertical removal paths separately provided from horizontal and vertical paths, respectively, horizontal and vertical paths. It relates to a wireless communication device for canceling cross polarization that can cancel cross polarization coming into a path. To this end, the wireless communication device for canceling cross polarization according to the present invention is a wireless communication device configured with a first path through which first polarization data is processed and a second path through which second polarization data is processed. A third amplifier and a first phase shift on a third path connecting a first amplifier, a second amplifier on the second path, and an output end of the first amplifier and an input end of the second amplifier and a fourth amplifier and a second phase shifter on a fourth path connecting the input terminal of the first amplifier and the output terminal of the second amplifier, the first polarization data passing through the first amplifier and The second polarization data passing through the third amplifier and the first phase shifter is mixed, and the second polarization data passing through the second amplifier and the first polarization data passing through the fourth amplifier and the second phase shifter are mixed characterized by being

Description

Wireless communication apparatus for canceling cross-polarization

The present invention relates to a wireless communication device for canceling cross polarization, and more particularly, by installing gain conversion and phase shifting amplifiers on horizontal and vertical removal paths separately provided from horizontal and vertical paths, respectively, horizontal and vertical paths. It relates to a wireless communication device for canceling cross polarization that can cancel cross polarization coming into a path.

1 shows the configuration of a conventional single polarized wave transceiver.

Referring to FIG. 1 , (a) is a single polarized wave transmitter, and (b) is a single polarized wave receiver.

The single polarized wave transmitter transmits single data D and T using a single polarized wave that is any one of linear, circular, and elliptical polarization, and the single polarized wave receiver receives single data D and R. This is called a single-input single-output (SISO) method.

2 shows the configuration of a conventional dual polarization transmission/reception device.

Referring to FIG. 2 , (a) is a double polarized wave transmitter, and (b) is a double polarized wave receiver.

The dual polarization transmitter transmits horizontal data (D, T, H) and vertical data (D, T, V) using double polarization, and the dual polarization receiver uses horizontal data (D, R, H) and vertical data Receive (D, R, V). This is called a multi-input multi-output (MIMO) method.

In an ideal dual polarization transceiver, data will be transmitted and received without signal distortion or interference. However, in general, the coupling between the horizontal (H) and vertical (V) polarization circuits, the coupling between the horizontal and vertical polarization ports of the antenna, the cross-polarization characteristics of the antenna itself, and the negative relationship between the transmitting and receiving devices Distortion or interference of a signal occurs due to misalignment, size and phase mismatch due to the roughness of the antenna surface or package.

3 is a diagram illustrating cross polarization occurring in a conventional dual polarization transmission/reception device.

Referring to FIG. 3 , in the dual polarization receiving apparatus, horizontally polarized data (D, R ₀ , H) and vertically polarized data (D, R ₀ ,V) are respectively added to cross polarized data (D, R _L0 ,V and D, R). It can be seen that ₀ ,H) occurred. Such cross-polarized data is recognized as noise, so it is difficult to implement multiple inputs and multiple outputs.

Since multi-input/multi-output signal processing is absolutely necessary for wideband realization like 5G or 6G, it is necessary to solve the problem of signal distortion or interference by removing the cross-polarization phenomenon that inevitably occurs in the multi-input/multi-output method.

Korean Patent Registration No. 10-0719607

The present invention has been devised to solve the above problem, and an object of the present invention is to cancel cross polarization generated in a multiple input multiple output method to transmit and receive data without distortion or interference of a signal.

To this end, the wireless communication device for canceling cross polarization according to the present invention is a wireless communication device configured with a first path through which first polarization data is processed and a second path through which second polarization data is processed,

Disposing a first amplifier on the first path,

disposing a second amplifier on the second path,

disposing a third amplifier and a first phase shifter on a third path connecting the output terminal of the first amplifier and the input terminal of the second amplifier;

By disposing a fourth amplifier and a second phase shifter on a fourth path connecting the input terminal of the first amplifier and the output terminal of the second amplifier,

The first polarization data passing through the first amplifier and the second polarization data passing through the third amplifier and the first phase shifter are mixed, and the second polarization data passing through the second amplifier and the fourth amplifier and the second polarization data are mixed. It is characterized in that the first polarization data passing through the two-phase shifter is mixed.

In addition, the wireless communication device for canceling cross polarization according to the present invention is a wireless communication device composed of a horizontal path in which horizontal path data is processed and a vertical path in which vertical path data is processed,

Disposing a first gain conversion amplifier and a first phase shifter on the horizontal path,

Disposing a second gain conversion amplifier and a second phase shifter on the vertical path,

disposing a third gain conversion amplifier and a third phase shifter on a vertical cancellation path connecting the output terminal of the first phase shifter and the input terminal of the second gain conversion amplifier;

By disposing a fourth gain conversion amplifier and a fourth phase shifter on a horizontal removal path connecting the input terminal of the first gain conversion amplifier and the output terminal of the second phase shifter,

The horizontal path data passing through the first gain conversion amplifier and the first phase shifter and the vertical path data passing through the third gain conversion amplifier and the third phase shifter are mixed to remove vertical leakage data generated in the horizontal path data, The vertical path data passing through the second gain conversion amplifier and the second phase shifter and the horizontal path data passing through the fourth gain conversion amplifier and the fourth phase shifter are mixed to remove the horizontal leakage data generated in the vertical path data. characterized.

In addition, the cross-polarization cancellation method of a wireless communication device according to the present invention comprises the steps of: processing first polarization data in a first path of the wireless communication device;

processing the second polarization data in a second path of the wireless communication device;

processing second polarization data in a third path connecting the output end of the first path and the input end of the second path;

processing the first polarization data in a fourth path connecting the input end of the first path and the output end of the second path;

The first polarization data processed in the first path and the second polarization data processed in the third path are mixed to remove leakage data generated in the first polarization data, and the second polarization data processed in the second path and and removing leakage data generated in the second polarization data by mixing the first polarization data processed in the fourth path.

As described above, the present invention has the effect of being able to transmit and receive data without distortion or interference of the signal by canceling the cross polarization generated in the multiple input multiple output method.

1 is a block diagram of a conventional single polarized wave transceiver.
2 is a block diagram of a conventional dual polarization transmission/reception device.
3 is a diagram illustrating cross-polarization occurring in a conventional dual polarization transmission/reception device;
4 is a block diagram of a cross-polarization cancellation circuit according to the present invention.
5 is a block diagram of a wireless communication device for canceling cross polarization to which a cross polarization cancellation circuit according to the first embodiment of the present invention is applied.
6 is a block diagram of a wireless communication device for canceling cross polarization to which a cross polarization cancellation circuit according to a second embodiment of the present invention is applied.
7 is a block diagram of a wireless communication device for canceling cross polarization to which a cross polarization cancellation circuit is applied according to a third embodiment of the present invention.
8 is a block diagram of a wireless communication device for canceling cross polarization to which a cross polarization cancellation circuit according to a fourth embodiment of the present invention is applied.
9 is a block diagram of a wireless communication device for canceling cross polarization to which a cross polarization cancellation circuit according to a fifth embodiment of the present invention is applied.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

On the other hand, in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

In addition, the terms "... unit" and "... module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

Hereinafter, a wireless communication device for canceling cross polarization according to an embodiment of the present invention will be described in detail with reference to the drawings.

4 shows the configuration of a cross polarization cancellation circuit according to the present invention.

In the dual polarization multiple input multiple output structure, cross polarization with non-uniform magnitude and phase is generated in the received signal. The cross polarization canceling circuit 100 according to FIG. 4 can be used to remove the cross polarization generated in the received signal. .

4, basically, vertical leakage data (D, V _L0 ) is generated as a cross-polarized wave in the horizontal path data (D, H ₀ ), and horizontal leakage data as a cross-polarized wave in the vertical path data (D, V ₀ ) is basically generated. (D, H _L0 ) occurs.

The data in which the vertical leakage data (D, V _L0 ) is mixed with the horizontal path data (D, H ₀ ) as a cross polarization is called the horizontal path mixed data (D, H ₀ + D, V _L0 ), and the vertical path data (D , V ₀ ) and horizontal leakage data (D, H _L0 ) as a cross-polarized wave is called vertical path mixed data (D, V ₀ + D, H _L0 ).

The horizontal path 1 is a path through which the horizontal path data passes, and the gain conversion amplifier 102 and the phase shifter 112 are disposed. In the embodiment of the present invention, a horizontal path through which horizontal polarization data is processed is shown as an example. Since various polarizations (circular and elliptical polarization) can be used in the dual polarization structure, the horizontal path 1 is the first polarization path through which the first polarization data passes. It can be the first route.

The vertical path 2 is a path through which the vertical path data passes, and the gain conversion amplifier 103 and the phase shifter 113 are disposed. Similarly, in the embodiment of the present invention, a vertical path through which vertical polarization data is processed is shown as an example. Since various polarizations (circular and elliptical polarization) can be used in the dual polarization structure, the vertical path 2 passes through the second polarization data. It can be a second route to

A gain conversion amplifier 101 and a phase shifter on the vertical removal path 3 connecting the input terminal of the gain conversion amplifier 103 of the vertical path 2 and the output terminal of the phase shifter 111 of the horizontal path 1 (111) is arranged.

In addition, on the horizontal removal path 4 connecting the input terminal of the gain conversion amplifier 102 of the horizontal path 1 and the phase shifter 1141 output terminal of the vertical path 2, the gain conversion amplifier 104 and the phase shift A gear 114 is disposed.

The vertical removal path (3) and the horizontal removal path (4) are paths for removing vertical path leakage data occurring in horizontal path data and horizontal path leakage data occurring in vertical path data when linear polarization is used in the dual polarization structure. Since other polarizations can be used, the vertical removal path 3 becomes a third path for removing the cross-polarization data (leakage data) generated in the second polarization data, and the horizontal removal path 4 is the first polarization data. It may be a fourth path for removing cross-polarization data generated in the data.

In the embodiment of the present invention, a gain conversion amplifier and a phase shifter are respectively disposed on the first to fourth paths, but a general amplifier may be used on the first and second paths, and the phase shifter may be omitted.

A signal processing operation in the cross-polarization cancellation circuit 100 configured in this way will be described.

The horizontal path mixed data (D, H ₀ + D, V _L0 ) is gain-converted and phase-shifted through the gain conversion amplifier 102 and the phase shifter 112 in the horizontal path 1, and the vertical path mixed data D , V ₀ + D, H _L0 ) through the gain conversion amplifier 101 and the phase shifter 111 in the vertical removal path 3, the horizontal leakage data (D, H _L0 ) is removed, the vertical path data (D , V ₀ ) gain conversion and phase shift so that the vertical leakage data (D, V _L0 ) passed through the horizontal path 1 have the same magnitude and opposite phase.

In this way, the horizontal path mixed data (D, H ₀ + D, V _L0 ) that went through the horizontal path (1) and the vertical path mixed data (D, V ₀ + D, H _L0 ) that went through the vertical removal path (3) are horizontal By summing at the output stage 5 of the path 1, the vertical leakage data (D, V _L0 ) is removed, so that only the horizontal path data (D, H ₀ ) without cross polarization comes out.

Similarly, the vertical path mixed data (D, V ₀ + D, H _L0 ) is gain-converted and phase-shifted through the gain conversion amplifier 103 and the phase shifter 113 in the vertical path 2, and the horizontal path mixed data (D, H ₀ + D, V _L0 ) is the vertical leakage data (D, V _L0 ) is removed through the gain conversion amplifier 104 and the phase shifter 114 in the horizontal removal path (4), the horizontal path data Gain conversion and phase shift are performed so that (D, H ₀ ) has the same magnitude as the horizontal leakage data (D, H _L0 ) passed through the vertical path (2) and has the opposite phase.

In this way, the vertical path mixed data (D, V ₀ + D, H _L0 ) passing through the vertical path (2) and the horizontal path mixed data (D, H ₀ + D, V _L0 ) passing through the horizontal removal path (4) are output. By summing in stage (6), horizontal leakage data (D, H _L0 ) is removed, and only vertical path data (D, V ₀ ) without cross polarization comes out.

5 shows the configuration of a wireless communication device for canceling cross polarization according to the first embodiment of the present invention.

Referring to FIG. 5 , the cross-polarization cancellation circuit 100 is disposed between the receiving end circuits 10 and 11 of the wireless communication device and the mixers 20 and 21 .

The horizontal path data and the vertical path data received through the dual polarization antenna (ANT) are processed as described above in FIG. 4 in the cross polarization cancellation circuit 100 through the receiving end circuits 10 and 11, and leakage data due to cross polarization is offset by

6 shows the configuration of a wireless communication device for canceling cross polarization according to a second embodiment of the present invention.

Referring to FIG. 6 , the cross-polarization cancellation circuit 100 is disposed between the antenna ANT of the wireless communication device and the receiving end circuits 10 and 11 .

The horizontal path data and vertical path data received through the dual polarization antenna (ANT) are processed as described above in FIG. 4 in the cross polarization canceling circuit 100, and after the leakage data due to the cross polarization is canceled, the receiving end circuit 10 , 11) and the mixers 20 and 21.

7 shows the configuration of a wireless communication device for canceling cross polarization according to a third embodiment of the present invention.

Referring to FIG. 7 , the cross-polarization cancellation circuit 100 is disposed at the rear end of the receiving end circuits 10 and 11 and the mixers 20 and 21 of the wireless communication device.

The horizontal path data and the vertical path data received through the dual polarization antenna (ANT) pass through the receiving end circuits 10 and 11 and the mixers 20 and 21 and then in the cross polarization cancellation circuit 100 as described above in FIG. 4 . It is processed together so that leakage data due to cross-polarization is canceled.

8 shows the configuration of a wireless communication device for canceling cross polarization according to a fourth embodiment of the present invention, and FIG. 9 shows the configuration of a wireless communication device for canceling cross polarization according to a fifth embodiment of the present invention. .

In FIGS. 5 to 7 , the cross-polarization canceling circuit 100 is included in the receiving device, but in FIGS. 8 and 9 , the polarization canceling circuit 100 is included in the transmitting device.

As shown in FIGS. 8 and 9 , when the cross-polarization canceling circuit 100 is built in the transmitting device, leakage data due to cross-polarization is added to the transmitted data and is distorted in advance. As such, the distorted data is canceled with cross polarization generated by the receiving device, so that a distortion-free signal may be output.

Referring to FIG. 8 , the cross-polarization cancellation circuit 100 is disposed between the mixers 30 and 31 and the transmitter circuits 40 and 41 of the wireless communication device.

The horizontal path data and the vertical path data are processed as described above in FIG. 4 through the mixers 30 and 31, and after the leakage data due to cross polarization is added and distorted, the double polarization antenna ( transmitted via ANT).

Referring to FIG. 9 , the cross-polarization cancellation circuit 100 is disposed at the rear end of the mixers 30 and 31 and the transmitter circuits 40 and 41 of the wireless communication device.

The horizontal path data and the vertical path data are processed as described above in FIG. 4 in the cross polarization canceling circuit 100, and after the leakage data due to cross polarization is added and distorted, the mixers 30 and 31 and the transmitter circuits 40 and 41 ) through a dual polarization antenna (ANT).

The above description is merely illustrative of the present invention, and various modifications may be made by those of ordinary skill in the art to which the present invention pertains without departing from the technical spirit of the present invention.

Therefore, the embodiments disclosed in the specification of the present invention do not limit the present invention. The scope of the present invention should be construed by the following claims, and all technologies within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1: horizontal path (first path) 2: vertical path (second path)
3: Vertical removal path (3rd path) 4: Horizontal removal path (4th path)
5: Horizontal path output stage 6: Vertical path output stage
100: cross-polarization cancellation circuit
101, 102, 103, 104: gain conversion amplifier
111, 112, 113. 114: phase shifter

Claims (7)

A broadband wireless communication device comprising a first path through which first polarization data is processed and a second path through which second polarization data is processed,
disposing a first amplifier and a first phase shifter on the first path;
disposing a second amplifier and a second phase shifter on the second path;
A third amplifier that performs gain conversion corresponding to the first amplifier on a third path connecting the output terminal of the first amplifier and the input terminal of the second amplifier, and a third phase shifter corresponding to the first phase shifter place the flag,
A fourth amplifier that performs gain conversion corresponding to the second amplifier on a fourth path connecting the input terminal of the first amplifier and the output terminal of the second amplifier, and a fourth phase shifter corresponding to the second phase shifter By disposing a group, the first path and the third path are made the same, and the second path and the fourth path are made the same,
The first polarization data passing through the first amplifier and the first phase shifter and the second polarization data passing through the third amplifier and the third phase shifter are mixed, and the second amplifier and the second phase shifter are mixed. A broadband wireless communication device for canceling cross-polarization, characterized in that the second polarization data and the first polarization data passing through the fourth amplifier and the fourth phase shifter are mixed. A broadband wireless communication device comprising a horizontal path in which horizontal path data is processed and a vertical path in which vertical path data is processed,
disposing a first amplifier and a first phase shifter on the horizontal path;
disposing a second amplifier and a second phase shifter on the vertical path;
A third gain conversion amplifier corresponding to the first amplifier and a third phase shifter corresponding to the first phase shifter are disposed on a vertical cancellation path connecting the output terminal of the first phase shifter and the input terminal of the second amplifier and,
A fourth gain conversion amplifier corresponding to the second amplifier and a fourth phase shifter corresponding to the second phase shifter are performed on a horizontal cancellation path connecting the input terminal of the first amplifier and the output terminal of the second phase shifter. to make the horizontal path and the vertical removal path the same and to make the vertical path and the horizontal removal path the same,
The horizontal path data passing through the first amplifier and the first phase shifter and the vertical path data passing through the third gain conversion amplifier and the third phase shifter are mixed to remove vertical leakage data generated in the horizontal path data, Crossing characterized in that the vertical path data passing through the second amplifier and the second phase shifter and the horizontal path data passing through the fourth gain conversion amplifier and the fourth phase shifter are mixed to remove horizontal leakage data generated in the vertical path data A broadband wireless communication device that cancels out polarization. processing the first polarization data through a first amplifier and a first phase shifter in a first path of a broadband wireless communication device;
processing the second polarization data through a second amplifier and a second phase shifter in a second path of the broadband wireless communication device;
In a third path connecting the output terminal of the first path and the input terminal of the second path, the second polarization is performed through a third gain conversion amplifier corresponding to the first amplifier and a third phase shifter corresponding to the first phase shifter. processing the data; and
In a fourth path connecting the input terminal of the first path and the output terminal of the second path, the first polarization is performed through a fourth gain conversion amplifier corresponding to the second amplifier and a fourth phase shifter corresponding to the second phase shifter. processing the data; and
The first polarization data processed in the first path and the second polarization data processed in the third path having the same path as the first path are mixed, and the second polarization data processed in the second path and the second polarization data are mixed. and mixing the first polarization data processed in the fourth path having the same path as the second path. 4. The method of claim 3,
The step of processing the second polarization data in the third path
The leakage data of the second polarization data is removed, and the second polarization data from which the leakage data is removed is a gain such that the leakage data of the first polarization data processed and output in the first path has the same magnitude as the leakage data and the phase is opposite. Cross-polarization cancellation method of a broadband wireless communication device, characterized in that the transformation and phase shift. 4. The method of claim 3,
The step of processing the second polarization data in the third path
and performing gain conversion and phase shifting on the second polarization data to generate leakage data due to the second polarization data. 4. The method of claim 3,
The step of processing the first polarization data in the fourth path is
The leakage data of the first polarization data is removed, and the gain is such that the leakage data of the first polarization data from which the leakage data has been removed has the same magnitude as the leakage data of the second polarization data output by processing in the second path but opposite in phase. Cross-polarization cancellation method of a broadband wireless communication device, characterized in that the transformation and phase shift. 4. The method of claim 3,
The step of processing the first polarization data in the fourth path is
and performing gain conversion and phase shifting on the first polarization data to generate leakage data due to the first polarization data.

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