KR20080050974A - Method and rf transceiver for eliminating crosstalk of tx/rx switching in uwb system - Google Patents

Abstract

An RF(Radio Frequency) transceiver for eliminating crosstalk of transceiving switching in a UWB(Ultra Wide Band) system is provided to isolate a signal so that the signal is not outputted from a transmitter when the transceiver operates in a reception mode, thereby eliminating crosstalk of a transmission signal applied to a receiver. A control signal generator is connected between a transmitter and a switch(130), and generates a transceiving switching control signal for isolating a transmission signal outputted from the transmitter when switching a receiving signal to a receiver. A transceiving controller(140) has a crosstalk elimination switch which isolates the transmission signal according to the transceiving switching control signal.

Description

Wireless Transceiver for Eliminating Crosstalk Components of Transceiver Switching in Ultra-Wideband Systems {METHOD AND RF TRANSCEIVER FOR ELIMINATING CROSSTALK OF TX / RX SWITCHING IN UWB SYSTEM}

The present invention relates to transmission and reception switching in an ultra-wideband system, and more particularly, to a wireless transmission and reception apparatus for removing a crosstalk component generated during transmission and reception switching.

The present invention is derived from a study conducted as part of the IT new growth engine core technology development project of the Ministry of Information and Communication [Task management number: 2006-S-071-01, Task name: Development of ultra-fast multimedia transmission UWB solution].

In general, an ultra-wideband system should basically be capable of bidirectional communication, and for this purpose, a radio transceiver having both a transmitting function and a receiving function is configured in a radio (RF) terminal. The structure of such a general wireless transceiver is as shown in FIG. 1.

Referring to FIG. 1, the general wireless transceiver is divided into a receiver 10 and a transmitter 20, and the receiver 10 and the transmitter 20 are connected to the switch 30 and the switch 30. ) Is connected to the band pass filter 40 connected to the antenna 50. In addition, the receiver 10 and the transmitter 20 are connected to a local signal generator 60, and an internal structure and a function thereof are generally well known and detailed description thereof will be omitted.

However, the output strength of a signal transmitted and received when transmitting and receiving a wireless signal using such a conventional transceiver is very large compared to the input strength of the received signal. For example, it can be up to 70dB. Therefore, in the conventional transceiver, even if the TX / RX (isolation) of the TX / RX switch is about 50dB, after transmitting to the receive mode, the transmission signal larger than the received signal will crosstalk into the receive path. There is a problem that the transceiver does not properly receive the received signal.

In order to solve the problems described above, the present invention provides a wireless transceiver for removing crosstalk components generated during transmission and reception switching to improve reception performance in an ultra-wideband system.

The present invention also provides a wireless transceiver for removing a crosstalk component of a transmission signal applied to the receiver by blocking the signal from being output from the transmitter when the radio transceiver is operated in a reception mode.

In order to solve the above problems, a wireless transceiver for removing a crosstalk component of transmission and reception switching in an ultra-wideband system according to the present invention includes a band pass filter for filtering a signal transmitted / received through an antenna and a connection with the band pass filter. Transmission and reception switching in an ultra-wideband system including a switch for switching the transmission / reception signal, a reception unit for wirelessly processing the filtered received signal, and a transmission unit for wirelessly processing the transmission signal and transmitting the radio signal to the band pass filter. A wireless transmitting / receiving device for canceling a crosstalk component, comprising: a transmission / reception switching control signal connected between the transmitter and the switch to generate a transmission / reception switching control signal to block a transmission signal output from the transmission unit when switching the reception signal to the reception unit From a control signal generator and the control signal generator Depending on the bottled water transmission and reception switching control signal it is characterized in that it comprises a transmission and reception control unit that includes a cross-talk removal switch to block the transmission signal.

In accordance with the above-described problem, the present invention improves the reception performance by switching the transmission mode from the transmission mode to the reception mode and then eliminating crosstalk components of the transmission signal applied to the reception unit by blocking the transmission unit so that the transmission signal is not output. Therefore, the received signal can be received without loss.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

According to an embodiment of the present invention, after the wireless transceiver in an ultra-wideband system switches from a transmission mode to a reception mode, a wireless signal is implemented to improve reception performance by removing a crosstalk component that is a component that transmits a transmission signal to a receiver. The transmission and reception apparatus will be described. First, a structure of a wireless transceiver according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram showing the structure of a wireless transceiver of an ultra-wideband system according to an embodiment of the present invention.

Referring to FIG. 2, the radio transceiver is largely divided into a receiver 110, a transmitter 120, a switch 130, and a transceiver 130, and the receiver 110 and the transmitter 120. Is connected to a local signal generator 170.

The switch 130 is connected between the band pass filter 150 and the transmitter / receiver 110 and 120 connected to the antenna 160 to switch the transmission / reception signal.

The transmission / reception control unit 140 is connected to a power amplifier (PA) 125 in the switch 130 and the transmission unit 120. Referring to FIG. 3, the reception unit 110 transmits the received signal to the reception unit 110. It is connected to a control signal generator 141 for generating a transmission and reception switching control signal for blocking the transmission signal output from the transmitter 120 when switching, and a power amplifier 124 included in the transmitter 120, the control And a crosstalk cancellation switch (142) for blocking the transmission signal according to the transmission / reception switching control signal generated from a signal generator.

The receiver 110 includes a low noise amplifier (LNA) 111 for low noise amplifying a received signal, and a down-mixer 112 for down-converting an output signal of the low noise amplifier 111. And a low pass filter (BPF) 113 for removing noise from the output signal of the downlink mixer 112, and adjusting the voltage magnitude of the output signal of the low pass filter 113 within a setting range. Lo buffer 115 which transfers the voltage controlled attenuator (VCA) 114 and the local oscillation signal (Locla signal or carrier) of the local signal generator 170 to the down mixer 112. ) And converts the received signal to be demodulated into the demodulated low frequency signal.

The transmitter 120 includes a low pass filter (LPF) 121 for removing noise of a transmission signal, a voltage controlled attenuator (VCA) 122 for adjusting a magnitude of the transmission signal within a predetermined range, and the transmission signal. An up-mixer 123 for up-converting the frequency in the UWB band, a power amplifier 124 for amplifying the power of the transmission signal converted and output from the up-mixer 123, It includes a Lo buffer 125 for transmitting the local oscillation signal of the local signal generator 170 to the up mixer 123 to wirelessly process the signal to be transmitted through the switch 130.

When operating in a transmission (TX) mode, the radio transceiver generally receives a transmission signal of several hundred MHz band, is filtered through a low pass filter 121, and then output to the antenna 150 by the VCA 122. The strength of the radio (RF) signal to be adjusted. Such a signal is mixed with the local oscillation signal generated by the local signal generator 170 and the up mixer 123 and converted into an RF signal of several GHz band. The converted signal is amplified by the power amplifier 124, filtered by the band pass filter 150 via a switch 130 connected to the transmitter 120, and then output through the antenna 160.

On the other hand, when the radio transceiver is operated (switched) in a reception mode, a radio signal of several GHz band is generally input through the antenna 160 and filtered through the band pass filter 150 and then connected to the receiver 110. It is amplified by the low noise amplifier 111 via the switch 130. These signals are mixed in a down-mixer 122 with local signals, such as in transmission mode, and restored to signals in the hundreds of MHz bands. The restored signal is filtered by the low pass filter (LPF) 150 and then the strength of the received signal is adjusted by the VCA.

As described above, the wireless transmission / reception apparatus controls transmission and reception switching through the transmission / reception control unit 140 at the time of performing general transmission / reception switching, and generates a transmission / reception switching control signal capable of cutting off the signal from the transmission unit 120 when switching to a reception mode. Let's do it. The transmission / reception switching control signal turns on / off the power of the power amplifier 124 of the transmitter 120 and operates as shown in FIG. 3.

Referring to FIG. 3, a direct current (DC) power source is a power source to be applied to the power amplifier 124, and a transmission / reception switching control signal is a value of '0' for operating in a reception mode. 142 is turned off. Therefore, power is not applied to the power amplifier 124. If power is not applied in this way, the power amplifier 124 does not operate and the output signal does not come out, so that the signal applied to the switch 130 is blocked.

On the contrary, when the transmission / reception switching control signal has a value of '1' operating in the transmission mode, the crosstalk removal switch 142 connected to the DC power is turned on so that power is applied to the power amplifier 124. When power is applied and the power amplifier 124 operates as described above, a signal of the transmitter 120 is normally output.

The transmission / reception control unit performing such an operation may be configured with a circuit as shown in FIG. 4, which will be described below with reference to this.

The transmission / reception control unit 130 may include a circuit including a MOSFET (Metal-Oxide Semiconductor Field Effect Transistor) and a transistor (TR). In this case, when the transmit / receive switching control signal is '0', the transistor and the MOS field effect transistor are turned off, and thus the power supply of the power amplifier 124 is not applied, so that the transmitter 120 is blocked. On the other hand, when it is '1', the transistor and the MOS field effect transistor are turned on so that power is applied to the power amplifier 124 so that the transmitter 120 operates normally.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a circuit diagram showing the structure of a wireless transceiver of a general ultra wideband system;

2 is a circuit diagram showing the structure of a wireless transceiver of an ultra-wideband system according to an embodiment of the present invention;

3 is a state diagram illustrating an operation for removing a crosstalk component generated when switching transmission and reception in a wireless transceiver according to an embodiment of the present invention;

4 is a detailed circuit diagram of a transmission and reception control unit for removing a crosstalk component generated when switching transmission and reception in a wireless transceiver according to an embodiment of the present invention.

Claims (3)

A band pass filter for filtering a signal transmitted / received through an antenna, a switch connected to the band pass filter to switch the transmission / reception signal, a reception unit for wirelessly processing the filtered received signal, and the transmission signal A wireless transceiver for removing crosstalk components of a transmit / receive switch in an ultra-wideband system including a transmitter configured to wirelessly transmit a signal to the band pass filter. Connected between the transmitter and the switch; A control signal generator for generating a transmission / reception switching control signal for blocking a transmission signal output from the transmission unit when switching the reception signal to the reception unit; And And a transmission / reception control unit including a cross-talk removal switch for blocking the transmission signal according to the transmission / reception switching control signal generated from the control signal generator. Transceiver. The method of claim 1, The crosstalk cancellation switch is turned off when the transmission / reception switching control signal is '0' and does not apply DC power to the power amplifier of the transmitter, and when the transmission / reception switching control signal is '1'. Wireless transmission and reception device for removing the cross-talk component of the transmission and reception switching in the ultra-wideband system characterized in that the ON to apply the DC power to the power amplifier. The method of claim 2, The crosstalk cancellation switch is connected between a MOS field effect transistor connected in series to a power supply terminal of a power amplifier of the transmitter and between the base and ground of the MOS field effect transistor, and is turned on / off according to a switching control signal. And a transistor configured to turn on / off the MOS field effect transistor.

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