WO2015060482A1 - Radio frequency front-end device for separating transmission signal and reception signal - Google Patents

Radio frequency front-end device for separating transmission signal and reception signal Download PDF

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Publication number
WO2015060482A1
WO2015060482A1 PCT/KR2013/009581 KR2013009581W WO2015060482A1 WO 2015060482 A1 WO2015060482 A1 WO 2015060482A1 KR 2013009581 W KR2013009581 W KR 2013009581W WO 2015060482 A1 WO2015060482 A1 WO 2015060482A1
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signal
coupling
transmission
leaked
separator
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PCT/KR2013/009581
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French (fr)
Korean (ko)
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최영규
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주식회사 인스파워
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Priority to PCT/KR2013/009581 priority Critical patent/WO2015060482A1/en
Publication of WO2015060482A1 publication Critical patent/WO2015060482A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/06Receivers
    • H04B1/10Means associated with receiver for limiting or suppressing noise or interference
    • H04B1/12Neutralising, balancing, or compensation arrangements
    • H04B1/123Neutralising, balancing, or compensation arrangements using adaptive balancing or compensation means
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04BTRANSMISSION
    • H04B1/00Details of transmission systems, not covered by a single one of groups H04B3/00 - H04B13/00; Details of transmission systems not characterised by the medium used for transmission
    • H04B1/38Transceivers, i.e. devices in which transmitter and receiver form a structural unit and in which at least one part is used for functions of transmitting and receiving
    • H04B1/40Circuits
    • H04B1/50Circuits using different frequencies for the two directions of communication
    • H04B1/52Hybrid arrangements, i.e. arrangements for transition from single-path two-direction transmission to single-direction transmission on each of two paths or vice versa
    • H04B1/525Hybrid arrangements, i.e. arrangements for transition from single-path two-direction transmission to single-direction transmission on each of two paths or vice versa with means for reducing leakage of transmitter signal into the receiver

Definitions

  • the present invention relates to a high-frequency front end apparatus for separating transmission and reception signals, and more particularly, to interference of leakage signals caused by the use of a directional coupler in isolation of transmission and reception signals in a system using a time devision duplex (TDD) scheme.
  • the present invention relates to a high frequency front end apparatus that separates a transmission / reception signal to maximize communication quality by minimizing the reception signal.
  • a system such as WiBro, WiMAX, WiFi, or a radio, which is a time devision duplex (TDD) type wireless communication system, secures communication quality by minimizing interference with each other by equalizing a frequency of a transmission signal and a reception signal.
  • TDD time devision duplex
  • a duplex cannot be used in a TDD system to separate a transmission signal and a reception signal, a circulator or an RF switch is usually used, but the circulator has a narrow frequency band. There is a problem that becomes complicated.
  • the directional coupler is used as a method of separating transmission and reception signals over a wide band, and the directional coupler has a limited isolation performance and thus has a limitation in the wireless system that can be used.
  • the general directional coupler generates a leakage signal in the directional coupler as shown in FIG. This is because the size of the isolation signal (isolation) of the directional coupler is about -20 ⁇ -30dB, and when used as a high frequency front end device, the transmission signal leaks to the receiver, thereby degrading the quality of the reception signal. That is, since the general received signal is very small and the transmitted signal is very large, the leaked transmitted signal may affect the received signal. In particular, a communication system using the same transmission / reception frequency and a communication device having a large transmission power have a problem of degrading the quality of a received signal.
  • an object of the present invention is to provide a high frequency front end device of a broadband communication device which cannot use a circulator and an RF switch by increasing the isolation of the high frequency directional coupler.
  • the object of the present invention described above is to separate the transmission signal and the reception signal by coupling an input transmission signal and a reception signal through respective coupling paths, and to separate the signal leaked from the transmission signal into a path different from the coupling path.
  • the magnitude and the delay time of the offset signal is adjusted in a direction coinciding with the leaked signal so that the coupling means 300 cancels the leaked signal, and the phase of the offset signal is adjusted by the coupling means 300. And to adjust in a direction opposite to the leaked signal to cancel.
  • the adjusting means 200 for adjusting the magnitude of the signal coupled from the transmission signal; A phase adjuster 220 for adjusting a phase of a signal coupled from the transmission signal; And a time delay unit 230 for delaying the arrival time of the coupled signal from the transmission signal.
  • the adjusting means 200 includes: a separator 205 for separating the coupled signal from the transmission signal into a plurality of signals; A plurality of scalers 210 for adjusting the magnitude of the signal separated from the separator 205; A plurality of phase adjusters 220 for adjusting the phase of the signal separated from the separator 205; And a plurality of time delays 230 for delaying the arrival time of the signal separated from the separator 205.
  • the leakage signal separator 400 for separating the leaked signal into a plurality of signals;
  • a plurality of coupling means (410, 410 ') for coupling at least one signal separated from the leakage signal separator 400 and at least one signal separated from the separator 205;
  • a plurality of filters 420 and 420 ' that receive at least one signal from the plurality of coupling means 410 and 410' and filter the predetermined frequency.
  • coupling means for coupling some of the input signal and the received signal through the respective coupling path coupling means for coupling the leakage signal leaked from the transmission signal to a path different from the coupling path
  • coupling means Some of the transmitted signals coupled by the 100, the received signal and the leakage signal are separated from each other a plurality of traveling paths proceeding to different paths, some of the transmission signals proceeding to the first path of the plurality of travel paths
  • a fixed attenuator for reducing the magnitude of power of the first signal A fixed attenuator for reducing the magnitude of power of the first signal
  • a first signal separator for forming a plurality of canceling paths by separating a signal of reduced power from the fixed attenuator into a plurality of signals
  • a plurality of leakage paths forming the first and second offset paths, the plurality of offset paths formed by
  • a plurality of signal amplitude variable attenuators that generate the same signal magnitude as the leaked signal to produce a plurality of canceled signals that can cancel each other out of the signal, a plurality of phase adjusters that generate a signal 180 degrees out of phase with the leaked signal
  • a plurality of adjusting means including a plurality of delay lines for delaying the arrival time of the signal so as to match the arrival time with each other when combined with the signal; a first canceling signal and a first leakage signal for going through the first canceling path and the third canceling path;
  • a plurality of coupling means for canceling a plurality of leakage signals by combining a second cancellation signal and a second leakage signal which advances the second offset path and the fourth offset path, and are leaked by the plurality of coupling means.
  • a plurality of filters for filtering signals out of the offset band among the received signals from which the signals have been removed, and combining means for restoring the original received signal by combining the received signals output from the plurality of filters with each other, the leakage signal It characterized in that it comprises a plurality of offset paths on the basis of the frequency of the offset band to cancel the predetermined size or less.
  • 1 is a view showing a leakage signal generated when using a conventional directional coupler
  • FIG. 2 is a block diagram showing the configuration of a high frequency shear apparatus for separating transmission and reception signals according to a first embodiment of the present invention
  • FIG. 3 is a view showing a frequency spectrum at point a of FIG.
  • FIG. 4 is a view showing a frequency spectrum at point c of FIG.
  • FIG. 5 is a diagram illustrating a frequency spectrum at point b of FIG. 2,
  • FIG. 6 is a diagram illustrating a frequency canceling characteristic according to a first embodiment of the present invention.
  • FIG. 7 is a block diagram showing the configuration of a high frequency shear apparatus for separating transmission and reception signals according to a second embodiment of the present invention
  • FIG. 8 is a diagram illustrating frequency cancellation characteristics according to a second embodiment of the present invention.
  • the transmission and reception calls and the reception signal have the same frequency (for example, a TDD system). The same can be applied to.
  • the high-frequency shear apparatus for separating transmission and reception signals according to the first embodiment of the present invention may improve the call quality of the receiver 20 by canceling the leakage signal accompanying by using a directional coupler.
  • Figures 2 to 6 will be described the configuration and function of the high-frequency shearing apparatus for separating the transmission and reception signals according to the present invention.
  • the first embodiment according to the present invention will be described on the assumption that there is only one offset path, and the second embodiment to be described below will be described with an example of the case where there are a plurality of offset paths.
  • the coupling means 100 couples some power (dBm) of the transmission signal f 1 transmitted from the transmitter to the control means 200 which will be described later, and sends the remaining power ( Most transmission signal power) radiates the transmission signal by transmitting to the antenna 40.
  • the coupling means 100 couples the reception signal f 2 received from the antenna 40 to a path different from the coupling path of the transmission signal, and transmits the signal to the reception unit 20. Therefore, the coupling means 100 isolates the transmission signal from the reception signal.
  • the coupling means 100 may be implemented by, for example, a directional coupler.
  • the isolation size of a typical directional coupler is about -20 to -30 dB, as shown in FIG. 4 when used as a high frequency shearing device.
  • the leakage signal f 1 ′′ leaks to the receiver to degrade the quality of the received signal.
  • the adjustment means 200 includes the offset signal of FIG. 5 having the same magnitude and delay time as the leakage signal and having a phase of 180 °. To cancel the leakage signal. Let's take a closer look below.
  • the adjusting means 200 first reduces the power (dBm) by using the fixed attenuator 211 to the signal coupled from the transmission signal. This is because the variable attenuator 213 and the phase adjuster 220 to be described later operate at a low power level, and thus may be damaged when a high power signal is input. After the signal level is greatly attenuated by the fixed attenuator 211, the arrival time of the offset signal is adjusted using a delay line such that the leakage signal reaches the coupling means 300 described later.
  • variable attenuator 213 matches the magnitude of the cancellation signal with the magnitude of the leakage signal, and the phase adjuster adjusts the phase of the cancellation signal to be 180 degrees different from the phase of the leakage signal.
  • the offset signal thus adjusted is shown in FIG. 5.
  • the coupling means 300 cancels the leakage signal by combining the offset signal and the leakage signal with each other, and transmits only the reception signal f 2 to the reception unit 20.
  • the above-described variable attenuator 213 and phase adjuster 220 may be automatically controlled by receiving an analog signal from a receiver side and configuring an analog circuit or a digital circuit.
  • Coupling means 300 can be implemented using a combiner or the like, the configuration of the above-described adjusting means 200 can be used in any order and combination without regard to the above-described order. That is, the variable attenuator 213 may be located before the time delay 230.
  • the frequency band for canceling the leakage signal by more than -30 dB is only about 10%.
  • the band characteristics of directional couplers are much broader than this. Therefore, the directional coupler may be used with only such isolation characteristics, but when a directional coupler having improved isolation characteristics is required within a wider band, a plurality of offset paths for canceling leakage signals should be implemented.
  • the second embodiment according to the present invention has a plurality of offset paths, and the same configuration and function will be replaced with the first embodiment, and the same reference numerals will be used for the convenience of description. do.
  • the transmission-side coupling signal coupled by the directional coupler which is the coupling means 100, lowers the power level using the fixed attenuator 211.
  • the transmitting side coupling signal whose power level is attenuated is separated into a first signal and a second signal by the separator 205.
  • the first and second signals are controlled through time delays 230 and 230 ', phase adjusters 220 and 220', and variable attenuators 213 and 213 ', respectively.
  • the adjusted first signal has the same magnitude (dBm) and time delay as the third signal shown in FIG. 7, and is adjusted so that the phase is 180 ° apart, and the adjusted second signal has the magnitude equal to the fourth signal.
  • the time delay is the same and the phases are adjusted so that they are 180 ° out of phase.
  • the third signal and the fourth signal are signals that are separated by the leakage signal separator 400 as leakage signals leaked by the directional coupler 100.
  • the first signal and the third signal having a 180 ° out of phase are combined by the combining means 410 to cancel the third signal, and the second and fourth signals having a 180 ° out of phase are combined with each other. 410 ') cancels the fourth signal to cancel all leakage signals flowing to the receiving side.
  • the directional coupler 100 described above is coupled not only to the leakage signal but also to the received signal like the leakage signal. Therefore, the received signal is also separated by the leakage signal separator 400, and the received signal from which the signal is separated is combined by the combining means 300 through a filter 420,420 '(in the present invention, a bandpass filter), thereby receiving the original received signal. Can be restored.
  • the reason for passing through the filters 420 and 420 'according to the offset paths is that the positions of the frequencies canceled by the respective offset paths are different from each other. If combined by the coupling means 300 without passing through the filters 420 and 420 ', there is a problem that the degree of cancellation of the final leakage signal is not greatly reduced because the level of the leakage signal that is not at the offset frequency position is relatively large.
  • the above-described coupling means 300, 410, 410 ′ may be implemented using an element such as a power combiner, and the leakage signal separator 400 may be implemented by a power divider.
  • the second embodiment of the present invention has been described with two offset paths, and when implemented with two offset paths, final offset characteristics as shown in FIG. 8 may be implemented.
  • the frequency position of the offset bandwidth can be adjusted by a time delay, a phase adjuster, and a variable attenuator.
  • two offset paths may be configured around the frequency of the offset band of -30dB.
  • Each path is canceled by a -30dB realizable bandwidth and then combined after passing through the filter.
  • the combined receiver signal cancels more than -30dB.

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  • Computer Networks & Wireless Communication (AREA)
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Abstract

The present invention relates to a radio frequency front-end device for separating a transmission signal and a reception signal, and relates to a radio frequency front-end device for separating the transmission signal and the reception signal, which maximizes communication quality by minimizing interference to a reception signal by a leaking signal, which is generated due to use of a directional coupler when the transmission signal and the reception signal are isolated, in a system using a time division duplex (TDD) scheme. To this end, disclosed is the radio frequency front-end device for separating the transmission signal and the reception signal comprising: a coupling means (100) for coupling the transmission signal and the reception signal which are input, through coupling paths, respectively, so as to separate the transmission signal and the reception signal and for coupling a signal leaking from the transmission signal in a path different from a coupling path; an adjusting means (200) for adjusting a signal coupled with the transmission signal to correspond to a leaking signal, thereby creating one or more offset signals; and a combining means (300) for combining one or more leaking signals with the one or more offset signals via at least one offset path, thereby offsetting the leaking signals.

Description

송수신 신호를 분리하는 고주파 전단장치High frequency shear device to separate the transmitted and received signal
본 발명은 송수신 신호를 분리하는 고주파 전단장치에 관한 것으로서, 보다 상세하게는 TDD(time devision duplex) 방식을 사용하는 시스템에서 송신신호 및 수신신호 격리시 방향성 결합기 사용에 기인하여 발생하는 누설신호의 간섭을 수신신호에 최소화하도록 함으로써 통신품질을 최대화하도록 한 송수신 신호를 분리하는 고주파 전단장치에 관한 것이다.The present invention relates to a high-frequency front end apparatus for separating transmission and reception signals, and more particularly, to interference of leakage signals caused by the use of a directional coupler in isolation of transmission and reception signals in a system using a time devision duplex (TDD) scheme. The present invention relates to a high frequency front end apparatus that separates a transmission / reception signal to maximize communication quality by minimizing the reception signal.
최근 TDD(time devision duplex) 방식의 무선통신 시스템인 WiBro, WiMAX, WiFi, 또는 무전기와 같은 시스템은 송신신호와 수신신호의 주파수를 동일하게 하여 서로 간섭을 최소화함으로써 통신 품질을 확보한다. 이때, 송신신호와 수신신호를 분리하기 위해 TDD 시스템에서는 듀플렉스(duplex)를 사용할 수 없기 때문에 보통 써큘레이터 또는 RF 스위치 등을 사용하는데 써큘레이터는 사용 주파수 대역이 좁고, RF 스위치를 이용하는 것은 시스템의 구조가 복잡해지는 문제점이 있다.Recently, a system such as WiBro, WiMAX, WiFi, or a radio, which is a time devision duplex (TDD) type wireless communication system, secures communication quality by minimizing interference with each other by equalizing a frequency of a transmission signal and a reception signal. In this case, since a duplex cannot be used in a TDD system to separate a transmission signal and a reception signal, a circulator or an RF switch is usually used, but the circulator has a narrow frequency band. There is a problem that becomes complicated.
따라서, 광대역으로 송수신 신호를 분리하는 방안으로 방향성 결합기를 사용하는데 방향성 결합기는 격리도 성능이 상대적으로 좋지 않기 때문에 사용할 수 있는 무선 시스템에 제한이 있고 사용 방법 또한 신중해야 한다.Therefore, the directional coupler is used as a method of separating transmission and reception signals over a wide band, and the directional coupler has a limited isolation performance and thus has a limitation in the wireless system that can be used.
즉, 일반적인 방향성 결합기는 도 1에 도시된 바와 같이 방향성 결합기에서 누설신호가 발생된다. 이는 방향성 결합기의 송신신호 격리도(isolation)의 크기가 -20 ~ -30dB 정도이기 때문이며, 고주파 전단장치로 사용할 때 송신신호가 수신부로 누설되어 수신신호의 품질을 저하시킨다. 즉, 일반적인 수신신호의 크기는 아주 미약하고 송신신호는 아주 크기 때문에 누설된 송신신호가 수신신호에 영향을 미칠 수 있다. 특히 같은 송수신 주파수를 사용하는 통신 시스템과 송신 전력이 큰 통신 장비일수록 수신신호의 품질을 저하시키는 문제점이 있다.That is, the general directional coupler generates a leakage signal in the directional coupler as shown in FIG. This is because the size of the isolation signal (isolation) of the directional coupler is about -20 ~ -30dB, and when used as a high frequency front end device, the transmission signal leaks to the receiver, thereby degrading the quality of the reception signal. That is, since the general received signal is very small and the transmitted signal is very large, the leaked transmitted signal may affect the received signal. In particular, a communication system using the same transmission / reception frequency and a communication device having a large transmission power have a problem of degrading the quality of a received signal.
따라서, 본 발명은 전술한 바와 같은 문제점을 해결하기 위하여 창출된 것으로서, 고주파 방향성 결합기의 격리도를 높여줌으로써 써큘레이터 및 RF 스위치를 사용할 수 없는 광대역 통신 장비의 고주파 전단장치를 제공하는데 그 목적이 있다.Accordingly, an object of the present invention is to provide a high frequency front end device of a broadband communication device which cannot use a circulator and an RF switch by increasing the isolation of the high frequency directional coupler.
그러나, 본 발명의 목적들은 상기에 언급된 목적으로 제한되지 않으며, 언급되지 않은 또 다른 목적들은 아래의 기재로부터 당업자에게 명확하게 이해될 수 있을 것이다.However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.
전술한 본 발명의 목적은, 입력되는 송신신호 및 수신신호를 각각의 커플링 경로를 통해 커플링 하여 송신신호 및 수신신호를 분리하고, 송신신호로부터 누설된 신호를 커플링 경로와는 다른 경로로 커플링 하는 커플링수단(100); 누설된 신호에 상응하도록 송신신호로부터 커플링된 신호를 조절함으로써 하나 이상의 상쇄신호를 생성하는 조절수단(200); 및 하나 이상의 누설된 신호와 하나 이상의 상쇄신호를 적어도 하나의 상쇄경로를 통해 결합함으로써 누설된 신호를 상쇄시키는 결합수단(300);을 포함하는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치를 제공함으로써 달성될 수 있다.The object of the present invention described above is to separate the transmission signal and the reception signal by coupling an input transmission signal and a reception signal through respective coupling paths, and to separate the signal leaked from the transmission signal into a path different from the coupling path. Coupling means (100) for coupling; Adjusting means (200) for generating one or more cancellation signals by adjusting the coupled signal from the transmitted signal to correspond to the leaked signal; And a coupling means (300) for canceling the leaked signal by combining the at least one leaked signal and the at least one canceled signal through at least one canceling path. This can be achieved by.
또한, 상쇄신호의 크기 및 지연시간은 결합수단(300)이 누설된 신호를 상쇄시키도록 누설된 신호와 서로 일치하는 방향으로 조절되고, 상쇄신호의 위상은 결합수단(300)이 누설된 신호를 상쇄시키도록 누설된 신호와 서로 반대되는 방향으로 조절되는 것을 특징으로 한다.In addition, the magnitude and the delay time of the offset signal is adjusted in a direction coinciding with the leaked signal so that the coupling means 300 cancels the leaked signal, and the phase of the offset signal is adjusted by the coupling means 300. And to adjust in a direction opposite to the leaked signal to cancel.
또한, 조절수단(200)은, 송신신호로부터 커플링된 신호의 크기를 조절하는 크기조절기(210); 송신신호로부터 커플링된 신호의 위상을 조절하는 위상조절기(220); 및 송신신호로부터 커플링된 신호의 도달 시간을 지연하는 시간지연기(230);를 포함하는 것을 특징으로 한다.In addition, the adjusting means 200, the size adjuster 210 for adjusting the magnitude of the signal coupled from the transmission signal; A phase adjuster 220 for adjusting a phase of a signal coupled from the transmission signal; And a time delay unit 230 for delaying the arrival time of the coupled signal from the transmission signal.
또한, 상쇄경로가 복수인 경우에는, 조절수단(200)은, 송신신호로부터 커플링된 신호를 복수의 신호로 분리하는 분리기(205); 분리기(205)로부터 분리된 신호의 크기를 조절하는 복수의 크기조절기(210); 분리기(205)로부터 분리된 신호의 위상을 조절하는 복수의 위상조절기(220); 및 분리기(205)로부터 분리된 신호의 도달 시간을 지연하는 복수의 시간지연기(230);를 포함하는 것을 특징으로 한다.Further, when there are a plurality of cancellation paths, the adjusting means 200 includes: a separator 205 for separating the coupled signal from the transmission signal into a plurality of signals; A plurality of scalers 210 for adjusting the magnitude of the signal separated from the separator 205; A plurality of phase adjusters 220 for adjusting the phase of the signal separated from the separator 205; And a plurality of time delays 230 for delaying the arrival time of the signal separated from the separator 205.
또한, 상쇄경로가 복수인 경우에는, 누설된 신호를 복수의 신호로 분리하는 누설신호 분리기(400); 누설신호 분리기(400)로부터 분리된 적어도 어느 하나의 신호와 분리기(205)로부터 분리된 적어도 어느 하나의 신호를 서로 결합하는 복수의 결합수단(410,410'); 및 복수의 결합수단(410,410')으로부터 적어도 어느 하나의 신호를 입력받아 기 결정된 주파수를 필터링하는 복수의 필터(420,420');을 더 포함하는 것을 특징으로 한다.In addition, when there are a plurality of cancellation paths, the leakage signal separator 400 for separating the leaked signal into a plurality of signals; A plurality of coupling means (410, 410 ') for coupling at least one signal separated from the leakage signal separator 400 and at least one signal separated from the separator 205; And a plurality of filters 420 and 420 'that receive at least one signal from the plurality of coupling means 410 and 410' and filter the predetermined frequency.
또한, 입력되는 송신신호 중 일부 신호와 수신신호를 각각의 커플링 경로를 통해 커플링하며, 송신신호로부터 누설된 누설신호를 커플링 경로와는 다른 경로로 커플링 하는 커플링수단, 커플링수단(100)에 의해 커플링된 송신신호 중 일부 신호와 수신신호 및 누설신호가 서로 격리되어 서로 다른 경로로 진행되는 복수의 진행경로, 복수의 진행경로 중 제1 경로로 진행하는 송신신호 중 일부 신호의 전력 크기를 감소시키는 고정감쇠기, 고정감쇠기로부터 전력의 크기가 감소된 신호를 복수의 신호로 분리함으로써 복수의 상쇄경로를 형성하는 제1 신호분리기, 복수의 진행경로 중 제2 경로로 진행하는 수신신호 및 누설신호를 복수의 신호로 분리함으로써 복수의 상쇄경로를 형성하는 제2 신호분리기, 제1 신호분리기에 의해 형성된 복수의 상쇄경로는 제1,2 상쇄경로를 형성하고, 제2 신호분리기에 의해 형성된 복수의 상쇄경로는 제3,4 상쇄경로를 형성하며, 제1,2 상쇄경로 상에는 제3,4 상쇄경로를 진행하는 복수의 누설신호와 서로 상쇄될 수 있는 복수의 상쇄신호를 생성하기 위해 누설신호와 동일한 신호 크기를 생성하는 복수의 신호 크기 가변감쇠기, 누설신호와 180도 위상이 차이난 신호를 생성하는 복수의 위상조절기 및 누설신호와 결합시 서로 도달 시간을 맞추도록 신호의 도달 시간을 지연하는 복수의 딜레이 라인을 포함하는 복수의 조절수단, 제1 상쇄경로와 제3 상쇄경로를 진행하는 제1 상쇄신호와 제1 누설신호를 결합하고, 제2 상쇄경로와 제4 상쇄경로를 진행하는 제2 상쇄신호와 제2 누설신호를 결합함으로써 복수의 누설신호를 상쇄시키는 복수의 결합수단, 복수의 결합수단에 의해 누설신호가 제거된 각각의 수신신호 중 상쇄대역을 벗어난 신호를 필터링 하는 복수의 필터 및, 복수의 필터에서 각각 출력된 수신신호를 서로 결합함으로써 원래의 수신신호를 복원하는 결합수단을 포함하며, 누설신호를 기 결정된 크기 이하로 상쇄시키는 상쇄대역의 주파수를 경계로 복수의 상쇄경로를 구비하는 것을 특징으로 한다.In addition, coupling means for coupling some of the input signal and the received signal through the respective coupling path, coupling means for coupling the leakage signal leaked from the transmission signal to a path different from the coupling path, coupling means Some of the transmitted signals coupled by the 100, the received signal and the leakage signal are separated from each other a plurality of traveling paths proceeding to different paths, some of the transmission signals proceeding to the first path of the plurality of travel paths A fixed attenuator for reducing the magnitude of power of the first signal; a first signal separator for forming a plurality of canceling paths by separating a signal of reduced power from the fixed attenuator into a plurality of signals; The second signal separator and the plurality of offset paths formed by the first signal separator by separating the signal and the leakage signal into a plurality of signals to form a plurality of cancellation paths A plurality of leakage paths forming the first and second offset paths, the plurality of offset paths formed by the second signal separator, and the third and fourth offset paths, and the third and fourth offset paths on the first and second offset paths. A plurality of signal amplitude variable attenuators that generate the same signal magnitude as the leaked signal to produce a plurality of canceled signals that can cancel each other out of the signal, a plurality of phase adjusters that generate a signal 180 degrees out of phase with the leaked signal A plurality of adjusting means including a plurality of delay lines for delaying the arrival time of the signal so as to match the arrival time with each other when combined with the signal; a first canceling signal and a first leakage signal for going through the first canceling path and the third canceling path; A plurality of coupling means for canceling a plurality of leakage signals by combining a second cancellation signal and a second leakage signal which advances the second offset path and the fourth offset path, and are leaked by the plurality of coupling means. A plurality of filters for filtering signals out of the offset band among the received signals from which the signals have been removed, and combining means for restoring the original received signal by combining the received signals output from the plurality of filters with each other, the leakage signal It characterized in that it comprises a plurality of offset paths on the basis of the frequency of the offset band to cancel the predetermined size or less.
전술한 바와 같은 본 발명에 의하면 고주파 방향성 결합기의 격리도를 높여줌으로써 써큘레이터 또는 RF 스위치를 사용하지 않고 고주파 전단장치를 구성할 수 있는 효과가 있다.According to the present invention as described above by increasing the isolation of the high-frequency directional coupler has an effect that can be configured a high-frequency shear device without using a circulator or RF switch.
또한, 본 발명에 의하면 복수의 상쇄경로를 이용하여 누설신호를 상쇄시킴으로써 통신 품질을 향상시켜 주는 효과가 있다.In addition, according to the present invention, there is an effect of improving communication quality by canceling a leakage signal using a plurality of offset paths.
그리고, 본 발명에 의하면 고주파 전단장치 뿐만 아니라 기존의 방향성 결합기에 적용함으로써 방향성 결합기의 성능을 향상시킬 수 있는 효과가 있다.In addition, according to the present invention, by applying to a conventional directional coupler as well as a high frequency shearing device, there is an effect that can improve the performance of the directional coupler.
본 명세서에 첨부되는 다음의 도면들은 본 발명의 바람직한 일실시예를 예시하는 것이며, 발명의 상세한 설명과 함께 본 발명의 기술적 사상을 더욱 이해시키는 역할을 하는 것이므로, 본 발명은 그러한 도면에 기재된 사항에만 한정되어 해석 되어서는 아니 된다.The following drawings, which are attached to this specification, illustrate one preferred embodiment of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
도 1은 종래의 방향성 결합기를 사용하는 경우 발생되는 누설신호를 도시한 도면이고,1 is a view showing a leakage signal generated when using a conventional directional coupler,
도 2는 본 발명의 제1실시예에 따른 송수신 신호를 분리하는 고주파 전단장치의 구성을 나타낸 구성도이고,2 is a block diagram showing the configuration of a high frequency shear apparatus for separating transmission and reception signals according to a first embodiment of the present invention,
도 3은 도 2의 a점에서의 주파수 스펙트럼을 나타낸 도면이고,3 is a view showing a frequency spectrum at point a of FIG.
도 4는 도 2의 c점에서의 주파수 스펙트럼을 나타낸 도면이고,4 is a view showing a frequency spectrum at point c of FIG.
도 5는 도 2의 b점에서의 주파수 스펙트럼을 나타낸 도면이고,5 is a diagram illustrating a frequency spectrum at point b of FIG. 2,
도 6은 본 발명의 제1실시예에 따른 주파수 상쇄 특성을 나타낸 도면이고,6 is a diagram illustrating a frequency canceling characteristic according to a first embodiment of the present invention;
도 7은 본 발명의 제2실시예에 따른 송수신 신호를 분리하는 고주파 전단장치의 구성을 나타낸 구성도이고,7 is a block diagram showing the configuration of a high frequency shear apparatus for separating transmission and reception signals according to a second embodiment of the present invention,
도 8은 본 발명의 제2실시예에 따른 주파수 상쇄 특성을 나타낸 도면이다.8 is a diagram illustrating frequency cancellation characteristics according to a second embodiment of the present invention.
이하, 도면을 참조하여 본 발명의 바람직한 일실시예에 대해서 설명한다. 또한, 이하에 설명하는 일실시예는 특허청구범위에 기재된 본 발명의 내용을 부당하게 한정하지 않으며, 본 실시 형태에서 설명되는 구성 전체가 본 발명의 해결 수단으로서 필수적이라고는 할 수 없다.Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. In addition, one Example described below does not unduly limit the content of this invention described in the Claim, and the whole structure demonstrated by this Embodiment is not necessarily required as a solution of this invention.
<송수신 신호를 분리하는 고주파 전단장치의 구성><Configuration of high frequency shear device to separate transmission and reception signal>
본 발명의 제1 및 제2실시예서는 송신신호와 수신신호가 서로 다른 주파수(예를 들어 CDMA 시스템)임을 가정하여 설명하였으나 송수신호와 수신신호가 동일한 주파수(예를 들어 TDD 시스템)를 가지는 경우에도 동일하게 적용될 수 있다.Although the first and second embodiments of the present invention have been described on the assumption that the transmission signal and the reception signal are different frequencies (for example, a CDMA system), the transmission and reception calls and the reception signal have the same frequency (for example, a TDD system). The same can be applied to.
(제1실시예)(First embodiment)
도 2에 도시된 바와 같이 본 발명의 제1실시예에 따른 송수신 신호를 분리하는 고주파 전단장치는 방향성 결합기를 사용함으로써 수반되는 누설신호를 상쇄하여 수신부(20)의 통화품질을 향상시킬 수 있다. 이하에서는 도 2 내지 도 6을 참조하여 본 발명에 따른 송수신 신호를 분리하는 고주파 전단장치의 구성 및 기능을 설명하기로 한다.As shown in FIG. 2, the high-frequency shear apparatus for separating transmission and reception signals according to the first embodiment of the present invention may improve the call quality of the receiver 20 by canceling the leakage signal accompanying by using a directional coupler. Hereinafter, with reference to Figures 2 to 6 will be described the configuration and function of the high-frequency shearing apparatus for separating the transmission and reception signals according to the present invention.
본 발명에 따른 제1실시예는 상쇄경로가 하나인 경우를 가정하여 설명하며 후술하는 제2실시예는 상쇄경로가 복수인 경우의 일예를 들어 설명하기로 한다.The first embodiment according to the present invention will be described on the assumption that there is only one offset path, and the second embodiment to be described below will be described with an example of the case where there are a plurality of offset paths.
도 2 및 도 3에 도시된 바와 같이, 커플링수단(100)은 송신부에서 송신되는 송신신호(f1)의 일부 전력(dBm)을 커플링 하여 후술하는 조절수단(200)으로 보내고 나머지 전력(대부분의 송신신호 전력)은 안테나(40)로 전달함으로써 송신신호를 방사한다. 또한, 커플링수단(100)은 안테나(40)로부터 수신되는 수신신호(f2)를 송신신호의 커플링 경로와는 다른 경로로 커플링 하여 수신부(20)로 신호를 전달한다. 따라서 커플링수단(100)은 송신신호와 수신신호를 격리하는 기능을 수행한다. As shown in FIG. 2 and FIG. 3, the coupling means 100 couples some power (dBm) of the transmission signal f 1 transmitted from the transmitter to the control means 200 which will be described later, and sends the remaining power ( Most transmission signal power) radiates the transmission signal by transmitting to the antenna 40. In addition, the coupling means 100 couples the reception signal f 2 received from the antenna 40 to a path different from the coupling path of the transmission signal, and transmits the signal to the reception unit 20. Therefore, the coupling means 100 isolates the transmission signal from the reception signal.
다만, 커플링수단(100)은 일예로 방향성 결합기에 의해 구현될 수 있는데, 일반적인 방향성 결합기의 격리도(isolation) 크기는 -20 ~ -30dB 정도로서 고주파 전단장치로 사용할 때 도 4에 도시된 바와 같이 누설신호(f1")가 수신부로 누설(leakage)되어 수신신호의 품질을 저하시킨다. However, the coupling means 100 may be implemented by, for example, a directional coupler. The isolation size of a typical directional coupler is about -20 to -30 dB, as shown in FIG. 4 when used as a high frequency shearing device. The leakage signal f 1 ″ leaks to the receiver to degrade the quality of the received signal.
따라서, 누설신호(f1')를 상쇄시키기 위해 본 발명의 제1실시예에서는 조절수단(200)을 구비하여 누설신호와 크기 및 지연시간은 동일하고 위상이 180°인 도 5의 상쇄신호를 생성함으로써 누설신호를 상쇄시킨다. 이하 좀더 자세히 살펴보기로 한다.Therefore, in order to cancel the leakage signal f 1 ′, in the first embodiment of the present invention, the adjustment means 200 includes the offset signal of FIG. 5 having the same magnitude and delay time as the leakage signal and having a phase of 180 °. To cancel the leakage signal. Let's take a closer look below.
조절수단(200)은 송신신호로부터 커플링 된 신호를 먼저 고정 감쇠기(211)를 사용하여 전력(dBm)을 크게 떨어뜨린다. 왜냐면 후술하는 가변 감쇠기(213) 및 위상조절기(220)는 낮은 전력 레벨에서 동작하는 소자이므로 높은 전력의 신호가 입력되는 경우 파손될 염려가 있기 때문이다. 고정 감쇠기(211)에 의해 신호 레벨을 크게 감쇠시킨 후 누설신호가 후술하는 결합수단(300)에 도착하는 시간과 동일하도록 시간지연기(delay line)을 사용하여 상쇄신호의 도착 시간을 맞춘다. The adjusting means 200 first reduces the power (dBm) by using the fixed attenuator 211 to the signal coupled from the transmission signal. This is because the variable attenuator 213 and the phase adjuster 220 to be described later operate at a low power level, and thus may be damaged when a high power signal is input. After the signal level is greatly attenuated by the fixed attenuator 211, the arrival time of the offset signal is adjusted using a delay line such that the leakage signal reaches the coupling means 300 described later.
가변감쇠기(213)는 상쇄신호의 크기를 누설신호의 크기와 맞추며, 위상조절기는 상쇄신호의 위상을 누설신호의 위상과 180° 차이 나도록 맞춘다. 이렇게 조절된 상쇄신호는 도 5에 도시된 바와 같다. 결합수단(300)은 상쇄신호와 누설신호를 서로 결합함으로써 누설신호를 상쇄시키며, 수신신호(f2)만을 수신부(20)로 전달할 수 있게 된다. 상술한 가변감쇠기(213) 및 위상조절기(220)는 수신측 신호를 피드백 받아 아날로그 회로 또는 디지털 회로를 구성함으로써 자동으로 제어할 수 있다.The variable attenuator 213 matches the magnitude of the cancellation signal with the magnitude of the leakage signal, and the phase adjuster adjusts the phase of the cancellation signal to be 180 degrees different from the phase of the leakage signal. The offset signal thus adjusted is shown in FIG. 5. The coupling means 300 cancels the leakage signal by combining the offset signal and the leakage signal with each other, and transmits only the reception signal f 2 to the reception unit 20. The above-described variable attenuator 213 and phase adjuster 220 may be automatically controlled by receiving an analog signal from a receiver side and configuring an analog circuit or a digital circuit.
결합수단(300)은 컴바이너 등을 사용하여 구현가능하며, 상술한 조절수단(200)의 구성은 상술한 순서에 구애됨이 없이 어떠한 순서 및 조합으로도 사용할 수 있다. 즉 시간지연기(230)보다 가변감쇠기(213)가 먼저 위치할 수 있다.Coupling means 300 can be implemented using a combiner or the like, the configuration of the above-described adjusting means 200 can be used in any order and combination without regard to the above-described order. That is, the variable attenuator 213 may be located before the time delay 230.
도 6에 도시된 바와 같이 본 발명의 제1실시예와 같이 구현하는 경우 누설신호를 -30dB 이상 상쇄하는 주파수 대역은(fractional bandwidth) 약 10%정도 밖에 되지 않는다. 일반적으로 방향성 결합기의 대역특성은 이보다 상당히 넓다. 따라서 이러한 격리도 특성만을 가지고 방향성 결합기를 사용할 수도 있으나, 더 넓은 대역 내에서 격리도 특성이 향상된 방향성 결합기가 필요할 경우 누설신호를 상쇄시키는 상쇄경로가 복수로 구현되어야 한다. As shown in FIG. 6, when implemented as in the first embodiment of the present invention, the frequency band for canceling the leakage signal by more than -30 dB is only about 10%. In general, the band characteristics of directional couplers are much broader than this. Therefore, the directional coupler may be used with only such isolation characteristics, but when a directional coupler having improved isolation characteristics is required within a wider band, a plurality of offset paths for canceling leakage signals should be implemented.
(제2실시예)Second Embodiment
본 발명에 따른 제2실시예는 제1실시예와 비교하여 상쇄경로가 복수인 경우이며, 동일한 구성 및 기능은 제1실시예에 갈음하기로 하고, 설명의 편의를 위해 동일한 부호를 사용하기로 한다.Compared to the first embodiment, the second embodiment according to the present invention has a plurality of offset paths, and the same configuration and function will be replaced with the first embodiment, and the same reference numerals will be used for the convenience of description. do.
커플링수단(100)인 방향성 결합기에 의해 커플링 된 송신측 커플링 신호는 고정감쇠기(211)를 사용하여 전력 레벨을 낮춘다. 전력 레벨이 감쇠된 송신측 커플링 신호는 분리기(205)에 의해 제1신호와 제2신호로 분리된다. 제1신호 및 제2신호는 각각의 시간지연기(230,230'), 위상조절기(220,220'), 및 가변감쇠기(213,213')를 거쳐 신호가 조절된다. 이때, 조절된 제1신호는 도 7에 도시된 제3신호와 크기(dBm) 및 시간지연은 동일하고, 위상이 180° 차이가 나도록 조정되며, 조절된 제2신호는 제4신호와 크기 및 시간지연은 동일하고, 위상이 180° 차이가 나도록 조정된다. 제3신호 및 제4신호는 방향성 결합기(100)에 의해 누설된 누설신호로서 누설신호 분리기(400)에 의해 분리된 신호이다. The transmission-side coupling signal coupled by the directional coupler, which is the coupling means 100, lowers the power level using the fixed attenuator 211. The transmitting side coupling signal whose power level is attenuated is separated into a first signal and a second signal by the separator 205. The first and second signals are controlled through time delays 230 and 230 ', phase adjusters 220 and 220', and variable attenuators 213 and 213 ', respectively. In this case, the adjusted first signal has the same magnitude (dBm) and time delay as the third signal shown in FIG. 7, and is adjusted so that the phase is 180 ° apart, and the adjusted second signal has the magnitude equal to the fourth signal. The time delay is the same and the phases are adjusted so that they are 180 ° out of phase. The third signal and the fourth signal are signals that are separated by the leakage signal separator 400 as leakage signals leaked by the directional coupler 100.
위상이 180° 차이가 나는 제1신호와 제3신호를 결합수단(410)에 의해 합침으로써 제3신호를 상쇄시키고, 또한 위상이 180° 차이가 나는 제2신호와 제4신호를 결합수단(410')에 의해 합침으로써 제4신호를 상쇄시킴으로써 수신측으로 흐르는 누설신호를 전부 상쇄시킨다.The first signal and the third signal having a 180 ° out of phase are combined by the combining means 410 to cancel the third signal, and the second and fourth signals having a 180 ° out of phase are combined with each other. 410 ') cancels the fourth signal to cancel all leakage signals flowing to the receiving side.
다만, 상술한 방향성 결합기(100)는 누설신호만 커플링 되는 것이 아니라, 누설신호와 같이 수신신호도 커플링 된다. 따라서 누설신호 분리기(400)에 의해 수신신호도 분리가 되며, 신호가 분리된 수신신호는 필터(420,420')(본 발명에서는 대역통과 필터)를 거쳐 결합수단(300)에 의해 결합됨으로써 원 수신신호를 복원할 수 있다. However, the directional coupler 100 described above is coupled not only to the leakage signal but also to the received signal like the leakage signal. Therefore, the received signal is also separated by the leakage signal separator 400, and the received signal from which the signal is separated is combined by the combining means 300 through a filter 420,420 '(in the present invention, a bandpass filter), thereby receiving the original received signal. Can be restored.
이때, 상쇄경로가 복수인 경우에 상쇄경로에 따른 각각의 필터(420,420')를 거치는 이유는 각각의 상쇄경로에 의해 상쇄되는 주파수의 위치가 서로 다르기 때문이다. 만약 필터(420,420')를 거치지 않고 결합수단(300)에 의해 합쳐지면 상쇄 주파수 위치에 있지 않은 누설신호의 레벨이 상대적으로 크기 때문에 최종 누설신호의 상쇄 정도는 크게 감소하지 않는 문제점이 있다.In this case, when there are a plurality of offset paths, the reason for passing through the filters 420 and 420 'according to the offset paths is that the positions of the frequencies canceled by the respective offset paths are different from each other. If combined by the coupling means 300 without passing through the filters 420 and 420 ', there is a problem that the degree of cancellation of the final leakage signal is not greatly reduced because the level of the leakage signal that is not at the offset frequency position is relatively large.
상술한 결합수단(300,410,410')은 파워 컴바이너(combiner) 등의 소자를 사용하여 구현할 수 있으며, 누설신호 분리기(400)는 파워 디바이더(divider)에 의해 구현될 수 있다.The above-described coupling means 300, 410, 410 ′ may be implemented using an element such as a power combiner, and the leakage signal separator 400 may be implemented by a power divider.
본 발명의 제2실시예에서는 2가지 상쇄경로를 가지고 설명하였으며 2가지 상쇄경로를 가지고 구현하는 경우 도 8에 도시된 바와 같은 최종 상쇄특성을 구현할 수 있다. 이때, 상쇄 대역폭의 주파수 위치는 시간지연기, 위상조절기, 및 가변감쇠기에 의해 조정이 가능하다. 예를 들어 -30dB 이상의 상쇄특성을 만족하면서 2배의 대역폭을 갖도록 구현하고 싶다면 -30dB의 상쇄대역폭의 주파수를 경계로 두 개의 상쇄경로를 구성하면 된다. 각각의 경로에서 -30dB 구현 가능한 대역폭에 따라 상쇄를 시킨 후 필터를 통과 후 합친다. 최종적으로 합쳐진 수신단의 신호에서는 -30dB 이상 상쇄되게 된다. The second embodiment of the present invention has been described with two offset paths, and when implemented with two offset paths, final offset characteristics as shown in FIG. 8 may be implemented. At this time, the frequency position of the offset bandwidth can be adjusted by a time delay, a phase adjuster, and a variable attenuator. For example, if you want to achieve twice the bandwidth while satisfying the offset characteristic of -30dB or more, two offset paths may be configured around the frequency of the offset band of -30dB. Each path is canceled by a -30dB realizable bandwidth and then combined after passing through the filter. Finally, the combined receiver signal cancels more than -30dB.
한편, 좀 더 넓은 대역에서 상쇄특성을 구현하기 위해 상쇄경로를 3개 이상 구현함으로써 무한히 확장할 수 있다.On the other hand, by implementing three or more offset paths to implement the offset characteristics in a wider band can be infinitely extended.
이상, 본 발명의 일실시예를 참조하여 설명했지만, 본 발명이 이것에 한정되지는 않으며, 다양한 변형 및 응용이 가능하다. 즉, 본 발명의 요지를 일탈하지 않는 범위에서 많은 변형이 가능한 것을 당업자는 용이하게 이해할 수 있을 것이다.As mentioned above, although demonstrated with reference to one Embodiment of this invention, this invention is not limited to this, A various deformation | transformation and an application are possible. That is, those skilled in the art will readily appreciate that many modifications are possible without departing from the spirit of the invention.

Claims (5)

  1. 입력되는 송신신호 및 수신신호를 각각의 커플링 경로를 통해 커플링 하여 송신신호 및 수신신호를 분리하고, 상기 송신신호로부터 누설된 신호를 상기 커플링 경로와는 다른 경로로 커플링 하는 커플링수단(100);Coupling means for coupling the transmitted signal and the received signal through the respective coupling path to separate the transmission signal and the received signal, and coupling the signal leaked from the transmission signal to a path different from the coupling path 100;
    상기 누설된 신호에 상응하도록 송신신호로부터 커플링된 신호를 조절함으로써 하나 이상의 상쇄신호를 생성하는 조절수단(200); 및Adjusting means (200) for generating one or more cancellation signals by adjusting a coupled signal from the transmitted signal to correspond to the leaked signal; And
    하나 이상의 누설된 신호와 하나 이상의 상쇄신호를 적어도 하나의 상쇄경로를 통해 결합함으로써 상기 누설된 신호를 상쇄시키는 결합수단(300);을 포함하는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치.And a coupling means (300) for canceling the leaked signal by combining at least one leaked signal and at least one canceled signal through at least one cancelation path.
  2. 제 1 항에 있어서,The method of claim 1,
    상기 상쇄신호의 크기 및 지연시간은 상기 결합수단(300)이 상기 누설된 신호를 상쇄시키도록 상기 누설된 신호와 서로 일치하는 방향으로 조절되고,The magnitude and delay time of the cancellation signal are adjusted in a direction coinciding with the leaked signal such that the coupling means 300 cancels the leaked signal,
    상기 상쇄신호의 위상은 상기 결합수단(300)이 상기 누설된 신호를 상쇄시키도록 상기 누설된 신호와 서로 반대되는 방향으로 조절되는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치.The phase of the cancel signal is a high frequency shearing device for separating the transmission and reception signals, characterized in that the coupling means 300 is adjusted in a direction opposite to the leaked signal so as to cancel the leaked signal.
  3. 제 1 항에 있어서,The method of claim 1,
    상기 조절수단(200)은,The adjusting means 200,
    상기 송신신호로부터 커플링된 신호의 크기를 조절하는 크기조절기(210);A size adjuster 210 for adjusting a magnitude of a signal coupled from the transmission signal;
    상기 송신신호로부터 커플링된 신호의 위상을 조절하는 위상조절기(220); 및A phase adjuster 220 for adjusting a phase of a signal coupled from the transmission signal; And
    상기 송신신호로부터 커플링된 신호의 도달 시간을 지연하는 시간지연기(230);를 포함하는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치.And a time delay (230) for delaying the arrival time of the coupled signal from the transmission signal.
  4. 제 1 항에 있어서,The method of claim 1,
    상기 상쇄경로가 복수인 경우에는,If there are a plurality of offset paths,
    상기 조절수단(200)은,The adjusting means 200,
    상기 송신신호로부터 커플링된 신호를 복수의 신호로 분리하는 분리기(205);A separator 205 for separating the coupled signal from the transmission signal into a plurality of signals;
    상기 분리기(205)로부터 분리된 신호의 크기를 조절하는 복수의 크기조절기(210);A plurality of scalers 210 for adjusting the magnitude of the signal separated from the separator 205;
    상기 분리기(205)로부터 분리된 신호의 위상을 조절하는 복수의 위상조절기(220); 및A plurality of phase adjusters 220 for adjusting a phase of a signal separated from the separator 205; And
    상기 분리기(205)로부터 분리된 신호의 도달 시간을 지연하는 복수의 시간지연기(230);를 포함하는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치.And a plurality of time delays (230) for delaying the arrival time of the signal separated from the separator (205).
  5. 제 4 항에 있어서,The method of claim 4, wherein
    상기 상쇄경로가 복수인 경우에는,If there are a plurality of offset paths,
    상기 누설된 신호를 복수의 신호로 분리하는 누설신호 분리기(400); A leak signal separator 400 for separating the leaked signal into a plurality of signals;
    상기 누설신호 분리기(400)로부터 분리된 적어도 어느 하나의 신호와 상기 분리기(205)로부터 분리된 적어도 어느 하나의 신호를 서로 결합하는 복수의 결합수단(410,410'); 및A plurality of coupling means (410, 410 ') for coupling at least one signal separated from the leakage signal separator 400 and at least one signal separated from the separator 205; And
    상기 복수의 결합수단(410,410')으로부터 적어도 어느 하나의 신호를 입력받아 기 결정된 주파수를 필터링하는 복수의 필터(420,420');를 더 포함하는 것을 특징으로 하는 송수신 신호를 분리하는 고주파 전단장치.And a plurality of filters (420, 420 ') for receiving at least one signal from the plurality of coupling means (410, 410') and filtering a predetermined frequency.
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