KR20040024803A - Apparatus and Method for Transmitting and Receiving of Signal - Google Patents

Abstract

PURPOSE: A signal transmitting/receiving apparatus and a signal transmitting/receiving method are provided to reduce a path by allowing for a share of a transmitting sample signal down converting path and a receiving path. CONSTITUTION: A signal transmitting/receiving apparatus comprises a front end unit(200) for transmitting/receiving signals to/from an antenna; a common down converter(210) for converting the analog type RF signal transmitted from the front end unit into an IF signal; a signal separating unit(230) for separating a transmitting sample signal and a receiving signal from the signal transmitted from the common down converter; a received signal down converter(240) for converting the analog type receiving signal transmitted from the signal separating unit into a digital type signal; a transmitting sample signal down converter(250) for converting the analog type transmitting sample signal transmitted from the signal separating unit into a digital type signal; a transmitting signal linear compensating unit(260) for sensing the distortion component from the transmitting sample signal transmitted from the transmitting sample signal down converter, and modulating the transmitting signal by giving the distortion opposite from the sensed distortion component to the transmitting signal; a transmitting signal up converter(270) for converting the digital type IF signal modulated by the transmitting signal linear compensating unit into an analog type RF signal; and an HPA(280) for amplifying the signal transmitted from the transmitting signal up converter.

Description

Apparatus and Method for Transmitting and Receiving of Signal

The present invention relates to an apparatus and method for transmitting and receiving a signal to reduce a transmission / reception path of a signal by sharing a transmission sample signal downconversion path and a reception path for linearity compensation of a transmission signal.

1 is a block diagram schematically illustrating a configuration of an apparatus for transmitting and receiving a signal in a conventional base station.

Referring to FIG. 1, an apparatus for transmitting and receiving a signal at a base station is largely composed of a receiving unit receiving a signal from an antenna and a transmitting unit transmitting a signal to the antenna.

In more detail with respect to the apparatus for transmitting and receiving a signal, the apparatus for transmitting and receiving a signal includes a front end unit 100 for transmitting and receiving a signal with an antenna, and an analog RF (Radio Frequency) signal transmitted from the front end unit 100. (RX Downconverter) 110 and PLL (Phase Locked Loop) 1 120, which converts an IF signal of an analog form into a digital form after converting into an intermediate frequency signal, and amplifies a high output of a transmission signal. TX Sample Downconverter 130 for sampling the transmission signal to convert the sampled RF signal into an IF signal and then converting the analog IF signal into a digital form in order to improve the distortion component of the digital signal. ) And a PLL2 (140), a transmission that senses a distortion component in a signal transmitted from the transmission sample signal down-conversion unit 130 and modulates the transmission signal by giving a distortion opposite to that of the transmission signal TX Predistortion Chipset 150 and TX Upconverter 160 for converting the digital IF signal modulated by the transmit signal linearity compensator 150 into an analog RF signal. ), And a high power amplifier (HPA) 170 for amplifying the signal transmitted from the transmission signal up-conversion unit 160 to a high output.

Hereinafter, a signal transmission / reception device configured as described above will be described in more detail.

First, a reception apparatus for receiving a signal will be described. The reception apparatus includes a front-end unit 100, a reception signal down converter 110, and a PLL1 120.

The front-end unit 100 includes a duplexer 102 and a low noise amplifier (LNA) 104.

The duplexer 102 serves to protect the receiver from transmission output when transmitting one antenna for joint use in transmission and reception, and to supply an echo signal to the receiver when receiving.

The LNA 104 minimizes and amplifies the noise of the received signal transmitted from the duplexer 102 and transmits the received signal to the downlink converter 110.

The received signal down converter 110 is an AMP (Amplifier) 111 for amplifying the received signal transmitted from the front end unit 100, BPF (band-pass) for filtering the signal amplified by the AMP (111) filter 112, an attenuator 113 for adjusting the signal filtered by the BPF 112 to an appropriate level, a mixer 114 for converting an RF signal of an analog form transmitted from the attenuator 113 to IF, SAW 116 for amplifying the analog IF signal converted by the mixer 114 in the AMP 115, and then filtering the ADC to convert the analog IF signal into a digital IF signal. Driver 117 to amplify according to the input of the converter 118, ADC 118 for converting the analog IF signal amplified by the driver 117 into a digital IF signal.

The received signal converted into the digital form by the received signal down converter 110 is transmitted to a receiver chip set 119 to demodulate.

Hereinafter, an operation of the reception apparatus configured as described above will be described.

The received signal received from the antenna is primarily filtered at the duplexer 102 of the front end 100 and then amplified low noise by the LNA 104. The low-noise amplified signal is input to the received signal down-conversion unit 110 again, amplified by the AMP 111, secondly filtered by the BPF 112, and then adjusted to an appropriate level by the attenuator 113, and a mixer. Entered 114. The received signal input to the mixer 114 has an RF frequency converted to an IF frequency, filtered by the SAW 116, and then adapted to the input of the ADC 118 to convert an analog signal into a digital signal. Amplified by the driver 117. The converted digital signal is thus input to the receiving chip 119 to demodulate.

Next, a transmission apparatus for transmitting a signal will be described.

The transmitter for transmitting a signal includes a front-end unit 100, a transmission sample signal down converter 130, a PLL2 140, a transmission signal linearity compensator 150, a transmission signal up converter 160, and an HPA ( 170).

The front end unit 100 combines the sampled transmitted signal with the received signal at the duplexer 102. The duplexer 102 filters the transmission signal and transmits the filtered signal to the transmission sample signal down converter 130.

The downlink converter 130 transmits a BPF 131 for filtering a signal transmitted from the duplexer 102, an attenuator 132 for adjusting the level of the filtered signal, and converts an analog RF signal into a PLL2 ( The mixer 133 converts the IF signal using the 140, the AMP 134 for amplifying the analog IF signal converted by the mixer 133, the BPF 135 for filtering the amplified signal, and the analog. A driver 136 for amplifying the signal of the form into a digital form to amplify the input of the ADC 137, and an ADC 137 for converting the signal amplified by the driver 136 into a digital form.

The transmission signal linearity compensator 150 senses a distortion component in the transmission sample signal and gives a distortion opposite to that of the transmission signal to transmit the modulated signal to the transmission signal up-conversion unit 160.

The transmission signal up-conversion unit 160 converts the digital IF signal transmitted from the transmission signal linearity compensator 150 into an analog RF signal and transmits the converted RF signal to the HPA 170.

The HPA 170 amplifies the signal transmitted from the transmission signal up-conversion unit 160 to a high output and transmits the signal to the duplexer 102.

Hereinafter, the operation of the signal transmission apparatus configured as described above will be described.

The modulated transmission signal is converted into an analog signal and converted into an RF frequency by the transmission signal up-conversion unit 160 for transmission to the antenna via the transmission signal linearity compensator 150, and then amplified to high power by the HPA 170. It is filtered by the duplexer 102 and then transmitted through the antenna.

In this process, in order to improve the distortion component caused by the high output amplification of the transmission signal, the transmission signal is sampled and filtered by the BPF 131 of the transmission sample signal down converter 130, and then adjusted to an appropriate level by the attenuator 132. do. After inputting to the mixer 133, the RF frequency is converted to IF, and then amplified by a certain level, the amplified signal is filtered by the BPF 135, and then the ADC 137 for converting an analog form into a digital form. Amplified by the driver 136 according to the input of. The transmission signal converted into the digital form is transmitted to the transmission signal linearity compensator 150.

The transmission signal linearity compensator 150 senses a distortion component in the transmission sample signal and gives a distortion opposite to that of the transmission signal to transmit the modulated signal to the transmission signal up-conversion unit 160. In this way, the transmission signal linearity compensator 160 may improve distortion of the final transmission signal.

However, in the conventional method as described above, a path for converting to an IF signal in the transmission signal sampling process is configured separately from the reception signal path, thereby increasing the number of components and increasing the PLL frequency, resulting in poor spurious characteristics due to the coexistence of several frequencies in the board configuration. There is this.

Accordingly, an object of the present invention is to provide an apparatus and method for transmitting and receiving a signal which reduces a path by sharing a transmission sample signal downconversion path and a reception path for linearity compensation of a transmission signal.

1 is a block diagram schematically showing the configuration of an apparatus for transmitting and receiving signals in a conventional base station.

Figure 2 is a block diagram schematically showing the configuration of an apparatus for transmitting and receiving a signal in a base station according to an embodiment of the present invention.

3 is a flowchart illustrating a signal transmission / reception method according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100, 200: front end section 102, 202, 211: duplexer

104, 204: LNA 110, 240: Received signal down converter

111, 115, 134, 212, 215: AMP 112, 131, 135, 251: BPF

113, 132, 213: Attenuator 114, 133, 214: Mixer

116, 241: SAW 117, 136, 242, 252: driver

118, 137, 243, 253: ADC 119, 244: receiving chip

120, 140, 220: PLL 130, 250: Transmission sample signal down converter

150, 260: transmit signal linearity compensation unit

160, 270: transmission signal up-conversion unit

170, 280: HPA 230: signal separation unit

210: transmission and reception common down converter

According to an aspect of the present invention, a first down-conversion is performed by a transmission / reception common down-conversion unit and a first down-conversion signal is transmitted from a front end unit. A signal transmitting / receiving method is provided by separating a transmission sample signal and a reception signal by a signal separation unit, and then transmitting the separated signal to a corresponding down conversion unit to perform a second down conversion.

The first downconversion is characterized in that the signal transmitted from the front end unit is filtered and amplified, and then the analog signal is converted into an IF signal by adjusting the amplified signal to an appropriate level.

The transmission sample signal transmitted from the signal separation unit is transmitted to the transmission sample signal downconversion unit to compensate for distortion, and the received signal transmitted from the signal separation unit is transmitted to the reception signal downconversion unit and converted into a digital signal. Demodulated

According to another aspect of the present invention, a front end unit for transmitting and receiving a signal to the antenna, a transmission and reception common down converter for converting the RF signal of the analog form transmitted from the front end to the IF signal, the transmission and reception from the common down converter A signal separation unit for separating a transmission signal and a reception signal from the received signal, a reception signal down conversion unit for converting an analog signal received from the signal separation unit into a digital form, and an analog transmission transmitted from the signal separation unit A transmission sample signal downconversion unit for converting a signal into a digital form, and a transmission signal linearity compensation for detecting a distortion component from a transmission sample signal transmitted from the transmission sample signal downconversion unit and giving modulation to give a reversed phase to the transmission signal. A digital modulated IF modulated by the transmission signal linearity compensator The unit sends an up-conversion signal to convert the RF signal of the analog call, the transceiver of the signal comprising the HPA for amplifying the signal transmitted from the transmission signal up-converter with a high output is provided.

The front end unit protects the receiver from a transmission output when transmitting one antenna for joint use for transmission and reception, and a duplexer for supplying an echo signal to the receiver when receiving the signal, and a noise of the received signal transmitted from the duplexer. Include LNAs that minimize and amplify.

The transmission / reception common down-converter includes a duplexer for filtering the received signal and the transmitted signal transmitted from the front end unit, a first AMP for amplifying the signal transmitted from the duplexer, and a signal amplified at the first AMP. Attenuator for adjusting to a, a mixer for converting the RF signal transmitted from the attenuator to an IF signal using a PLL, and a second AMP for amplifying the IF signal converted in the mixer.

The received signal down converter comprises a SAW for filtering the received signal transmitted from the signal separator, a driver for amplifying for analog / digital conversion, an ADC for converting an analog signal amplified by the driver into a digital form, the digital form It includes a receiving chip for performing demodulation on the received signal converted to.

The transmission signal down converter includes a BPF for filtering a transmission signal transmitted from the signal separator, a driver for amplifying for analog / digital conversion, and an ADC for converting an analog signal amplified by the driver into a digital form.

According to another aspect of the present invention, when a signal is received, filtering the received signal, amplifying the filtered signal to adjust the appropriate level, and then converts the analog signal RF signal into an IF signal to convert If it is determined whether the analog IF signal is a transmission signal, and if the determination result indicates that the analog IF signal is a transmission signal, the analog IF signal is filtered and then converted into a digital signal. After detecting the distortion with respect to the digital IF signal, compensating for the distortion, converting the distortion-compensated digital IF signal into an analog RF signal, and converting the converted analog RF signal into a high output amplification. After that, there is provided a method for transmitting and receiving a signal, characterized in that the transmission through the antenna by filtering.

As a result of the determination, if the analog IF signal is a received signal, the analog IF signal is filtered, converted into a digital signal, and the demodulated digital signal is converted.

In the present invention, the main path of the received signal and the main path of the transmitted signal are the same as in the conventional configuration. However, when the sample signal for linearity compensation of the transmission signal is down-converted, there is a common part of the transmission signal down-conversion unit and the reception signal down-conversion unit. Here, the common part will be referred to as a transmission and reception common down converter.

The received signal or the transmitted sample signal passing through the front end is transmitted to the signal separation unit through the transmission and reception common downconversion unit. The received signal transmitted to the signal separation unit is transmitted to the received signal downconversion unit, and the transmission sample signal is transmitted to the transmission sample signal downconversion unit. The received signal transmitted to the received signal down converter is converted into a digital signal, and the transmitted sample signal transmitted to the transmitted sample signal down converter is transmitted to the transmit signal linearity compensator to compensate for linearity.

Therefore, according to the present invention, there is a portion where the reception signal down converter and the transmission sample signal down converter are in common, thereby reducing the transmission / reception path.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram schematically showing the configuration of an apparatus for transmitting and receiving a signal in a base station according to an embodiment of the present invention.

Referring to FIG. 2, an apparatus for transmitting and receiving a signal at a base station generally includes a receiving unit receiving a signal from an antenna and a transmitting unit transmitting a signal to the antenna.

Looking at the device for transmitting and receiving the signal in more detail, the signal transmitting and receiving device is a front end 200 for transmitting and receiving a signal to the antenna, the transmission and reception common down to convert the RF signal transmitted from the front end 200 to an IF signal A signal separator 230 and a signal separator 230 for separating a transmission signal and a received signal from a signal transmitted from the converter 210 and the PLL 220, the transceiving common down-converter 210. A received signal down converter 240 for converting an analog IF signal into a digital form, and a downlink converter for converting an analog IF signal transmitted from the signal separator 230 into a digital form. 250) a transmission signal line which senses a distortion component in a signal transmitted from the transmission sample signal down-conversion unit 250 and modulates the transmission signal by giving a distortion opposite in phase to the transmission signal A sex signal compensation unit 260, a transmission signal up-conversion unit 270 for converting the digital IF signal modulated by the transmission signal linearity compensation unit 260 into an analog-type RF signal, and the transmission signal up-conversion unit 270 HPA 280 to amplify the signal transmitted from the high power output.

Hereinafter, a signal transmission / reception device configured as described above will be described in more detail.

The front-end unit 200 includes a duplexer 202 and an LNA 204.

The duplexer 202 serves to protect the receiver from transmission output when transmitting one antenna for joint use in transmission and reception, and to supply an echo signal to the receiver when receiving.

The LNA 204 minimizes and amplifies the noise of the received signal transmitted from the duplexer 202 and transmits the same to the transmit / receive common down-conversion unit 210.

The transmission / reception common down-conversion unit 210 includes a duplexer 211 for filtering the received signal and the transmitted signal transmitted from the front end unit 200, an AMP 212 for amplifying the filtered signal, and the AMP 212. An attenuator 213 for adjusting the amplified signal to an appropriate level, a mixer 214 for converting the RF signal transmitted from the attenuator 213 to an IF signal using the PLL 220, and a conversion at the mixer 214. And an AMP 215 for amplifying the IF signal.

The transmission / reception common down converter 210 transmits a received signal or a transmitted signal to the signal separator 230.

The signal separator 230 separates a signal transmitted from the transmission and reception common down converter 210 and transmits the signal to the received signal down converter 240 and the transmission sample signal down converter 250.

The received signal down-conversion unit 240 amplifies the SAW 241 for filtering the received signal transmitted from the signal separation unit 230 and the input of the ADC 243 for converting an analog signal into a digital form. A driver 242, an ADC 243 for converting an analog signal amplified by the driver 242 into a digital form, and a receiving chip 244 for demodulating the received signal converted into the digital form. .

The transmission sample signal down converter 250 amplifies the input signal of the BPF 251 for filtering the transmission signal transmitted from the signal separation unit 230 and the ADC 253 for converting an analog signal into a digital signal. The driver 252 and the ADC 253 for converting the signal amplified by the driver 252 into a digital form.

The transmission signal linearity compensator 260 senses a distortion component in the transmission sample signal, gives a distortion opposite in phase to the transmission signal, and transmits a modulated signal to the transmission signal up-conversion unit 270.

The transmission signal up-conversion unit 270 converts the digital IF signal transmitted from the transmission signal linearity compensator 260 into an analog RF signal and transmits it to the HPA 280.

The HPA 280 amplifies the signal transmitted from the transmission signal up-conversion unit 270 to a high output and transmits the signal to the duplexer 202.

Hereinafter, an operation of the apparatus for transmitting and receiving a signal configured as described above will be described.

First, the operation of the receiving apparatus will be described.

The received signal received from the antenna is primarily filtered at the duplexer 202 of the front end 200 and then low noise amplified by the LNA 204.

The low noise amplified signal is input to the duplexer 211 of the common down-conversion unit 210 to perform filtering of the received signal.

The filtered signal is amplified by the AMP 212 and then adjusted to an appropriate level by the attenuator 213 and input to the mixer 214 to convert the RF signal into an IF signal.

The converted IF signal is separated from the transmission sample signal by the signal separator 230. The received IF signal separated from the transmitted sample signal is filtered by the SAW 241 and then amplified by the driver 240 in accordance with the input of the ADC 243 which converts the analog form into the digital form. The received signal converted into the digital form is input to the receiving chip 244 to demodulate.

Next, the operation of the transmission apparatus will be described.

The modulated transmission signal is up-converted into a digital / analog conversion and an RF signal by the transmission signal upconversion unit 270 for transmission to the antenna via the transmission signal linearity compensator 260, and then amplified by the HPA 280 at high power. do.

The amplified signal is filtered by the duplexer 202 and then transmitted via an antenna. In this process, the transmission signal is sampled to improve the distortion component generated during the high output amplification of the transmission signal, and the reception path is shared to perform the function of the transmission sample signal down converter.

The transmission sample signal is input to the duplexer 211, and filtering is performed to filter the transmission signal. The filtered signal is amplified by the AMP 212, and then adjusted to an appropriate level by the attenuator 213. Inputted to 214, the RF signal is converted into an IF signal. The converted IF signal is separated from the received signal by the signal separator 230.

The IF signal separated from the received signal is filtered by the BPF 251 and then amplified by the driver 252 in accordance with an input of the ADC 253 which converts an analog signal into a digital form. The transmission signal converted into the digital form is transmitted to the transmission signal linearity compensator 260.

The transmission signal linearity compensator 260 detects a distortion component in the transmission sample signal, gives a distortion opposite in phase to the transmission signal, and transmits a modulated signal to the transmission signal up-conversion unit 270.

As described above, when the transmission signal linearity compensator 260 passes, the distortion of the final transmission signal is improved.

3 is a flowchart illustrating a signal transmission / reception method according to an exemplary embodiment of the present invention.

Referring to FIG. 3, when an analog RF signal is received in the front end unit (S300), the transceiver performs filtering on the received analog RF signal (S302). That is, the transmission and reception apparatus performs filtering of the transmission signal and the reception signal on the received signal.

After performing step 302, the transmitting and receiving device amplifies and adjusts the filtered analog RF signal to an appropriate level, and converts it into an analog IF signal (S304).

Then, the transmission and reception apparatus determines whether the converted analog IF signal is a transmission signal (S306). That is, the transmitting and receiving device separates the transmission signal and the reception signal with respect to the analog IF signal.

If it is determined in step 306 that the analog IF signal is a transmission signal, the transceiver transmits the analog IF signal after filtering the analog signal to a digital IF signal (S308).

After performing step 308, the transceiver detects the distortion of the digital IF signal and compensates for the distortion (S310). That is, the transmitting and receiving device compensates for the distortion by detecting distortion of the digital transmission sample signal and giving a distortion opposite to that of the transmission signal.

After performing step 310, the transceiver converts the distortion-compensated digital IF signal into an analog RF signal (S312).

After performing step 312, the transceiver transmits and outputs the analog RF signal after high power amplification and filtering through an antenna (S314).

If it is determined in step 306 that the analog IF signal is a received signal, the transceiver transmits the analog IF signal after filtering the analog signal to a digital IF signal (S316).

Then, the transceiver performs demodulation on the IF signal of the digital form (S318).

The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

As described above, according to the present invention, the path can be reduced by sharing the transmission sample signal downconversion path and the reception path for linearity compensation of the transmission signal, and also the PLL block can be reduced, thereby reducing the cost and size of the board. An apparatus and method for transmitting and receiving a signal may be provided.

Claims (11)

Performing a first downconversion of the transmission sample signal and the reception signal transmitted from the front end unit by the transmission / reception common downconversion unit; Separating the first down-converted signal into a transmission sample signal and a received signal by a signal separation unit, and then transmitting the separated signals to a corresponding down conversion unit to perform a second down conversion; Transmitting and receiving method of a signal comprising a. The method of claim 1, The first down-conversion method of filtering and amplifying a signal transmitted from the front-end unit, and then adjusting the amplified signal to an appropriate level to convert an analog RF signal into an IF signal, characterized in that . The method of claim 1, The transmission sample signal transmitted from the signal separation unit is transmitted to the transmission sample signal down-conversion unit is converted into a digital signal, and then the distortion is compensated for the method, characterized in that the compensation. The method of claim 1, And a demodulation is performed after the received signal transmitted from the signal separator is transmitted to the received signal down converter and converted into a digital signal. Front end for transmitting and receiving a signal to the antenna; A transmission / reception common down converter for converting an analog RF signal transmitted from the front end into an IF signal; A signal separation unit that separates a transmission sample signal and a reception signal from a signal transmitted from the transmission / reception common down-conversion unit; A reception signal down converter for converting an analog signal received from the signal separator into a digital form; A transmission sample signal down converter for converting an analog transmission sample signal transmitted from the signal separation unit into a digital form; A transmission signal linearity compensator which senses a distortion component in a transmission sample signal transmitted from the transmission sample signal down converter and modulates the transmission signal by giving a distortion opposite in phase to the transmission signal; A transmission signal up converter for converting the digital IF signal modulated by the transmission signal linearity compensator into an analog RF signal; and HPA for amplifying the signal transmitted from the transmission signal up-conversion unit to a high output Transmitting and receiving device of a signal comprising a. The method of claim 5, The front end portion A duplexer that protects the receiver from a transmission output when transmitting one antenna for joint use for transmission and reception, and supplies an echo signal to the receiver when receiving; And an LNA which minimizes and amplifies the noise of the received signal transmitted from the duplexer. The method of claim 5, The transmission and reception common down converter A duplexer for performing filtering on the received signal and the transmitted sample signal transmitted from the front end unit; A first AMP amplifying a signal transmitted from the duplexer; An attenuator for adjusting the signal amplified by the first AMP to an appropriate level; A mixer for converting the RF signal transmitted from the attenuator into an IF signal using a PLL; and And a second AMP for amplifying the IF signal converted by the mixer. The method of claim 5, The received signal down converter is SAW for filtering the received signal transmitted from the signal separation unit; Drivers for amplifying for analog / digital conversion; An analog-to-digital converter for converting an analog signal amplified by the driver into digital form; And a receiving chip for demodulating the received signal converted into the digital form. The method of claim 5, The transmission signal down converter is A BPF for filtering the transmission sample signal transmitted from the signal separation unit; Drivers to amplify for analog / digital conversion; and And an analog-to-digital converter for converting an analog signal amplified by the driver into a digital form. If a signal is received, performing filtering on the received signal; Amplifying the filtered signal to an appropriate level and converting an analog RF signal into an IF signal; Determining whether the converted analog IF signal is a transmission sample signal; If the analogue IF signal is a transmission sample signal, filtering the analogue IF signal and converting it into a digital signal; Detecting distortion of the digital IF signal and compensating for the distortion; Converting the distortion-compensated digital IF signal into an analog RF signal; and Amplifying the output RF signal in high power, and then filtering and transmitting the same through an antenna Transmitting and receiving method of a signal comprising a. The method of claim 10, If the analog IF signal is a received signal, filtering the analog IF signal and converting the digital signal into a digital signal; And demodulating the IF signal of the converted digital form.