KR200185279Y1 - Frequency conversion apparatus in a communication system - Google Patents

Abstract

A frequency converter in a communication system according to the present invention includes a duplexer for transmitting and receiving a signal, an up mixer for converting a baseband transmission signal into an RF band signal and transmitting the signal through a duplexer, and reception of an RF band received at the duplexer. And a down mixer for converting the signal into a baseband signal, and a direct conversion mixer having a phase locked loop for providing the up mixer and the down mixer with a stable reference frequency for frequency conversion.

Here, the frequency converter in the communication system according to the present invention further includes a baseband analog processor for converting the baseband analog signal to a digital signal.

According to the present invention, in the conversion between the RF band signal and the baseband signal, by using the direct conversion mixer directly converts the signal for each frequency band, there is an advantage that can reduce the number of components and prevent the occurrence of noise have.

Description

Frequency conversion apparatus in a communication system

The present invention relates to a communication system, and more particularly, to a frequency conversion in a communication system. Particularly, a radio frequency (RF) band received signal is converted into a baseband signal, and a baseband transmission is performed. The present invention relates to a frequency conversion device in a communication system that converts a signal into a signal in an RF band and transmits the signal.

In general, the configuration of the frequency converter in the communication system is as shown in FIG. 1 is a diagram schematically showing the configuration of a frequency converter in a conventional communication system.

Referring to FIG. 1, a reception operation of a signal will be described first. A signal of an RF band is received through a duplexer 101. Accordingly, the signal of the RF band received through the duplexer 101 is amplified by a low signal amplifier (LNA) 102 at an appropriate signal strength and transmitted to the down mixer 103. .

On the other hand, the phase locked loop (PLL) 112 of the local processor 110 receives a synchronization signal from a temperature compensated crystal oscillator (TCXO) 111 and performs a voltage controlled oscillator. The oscillation frequency of the voltage controlled oscillator (VCO) 113 is adjusted to transmit a stable reference frequency necessary for frequency conversion to the down mixer 103. Accordingly, the down mixer 103 converts the signal of the RF band received by the duplexer 101 into a signal of the intermediate frequency band by the frequency applied from the phase lock loop 112 of the local processing unit 110. Let's do it.

The intermediate frequency band signal thus converted is transmitted to an intermediate frequency receiver (IFR) 120, and the intermediate frequency receiver 120 is processed in the same manner as the frequency conversion method described above. Thus, the transmitted intermediate frequency band signal is converted into a baseband signal.

In addition, referring to the signal transmission operation, the baseband transmission signal to be transmitted is processed by the frequency conversion method as described above through the intermediate frequency transmitter (Intermediate Frequency Transmitter (IFT)) 130, The converted signal of the converted intermediate frequency band is transmitted to the up mixer 104.

On the other hand, the phase synchronization loop 112 of the local processing unit 110 receives the synchronization signal from the temperature compensated crystal oscillator 111, and adjusts the oscillation frequency of the voltage controlled oscillator 113 to the up mixer 104 to adjust the frequency. Apply the required stable reference frequency. Accordingly, the up mixer 104 transmits the signal of the intermediate frequency band received by the intermediate frequency transmitter 130 to the signal of the RF band by the frequency transmitted from the phase lock loop 112 of the local processing unit 110. To.

As such, the transmission signal converted into a signal of the RF band by the up mixer 104 is amplified to an appropriate signal size by a power amplifier module (PAM) 105 and transferred to the duplexer 101. Accordingly, the duplexer 101 transmits the transmitted transmission signal.

However, in the frequency conversion process using the frequency conversion device in the conventional communication system as described above, there is a process of converting the signal to the intermediate frequency band between the conversion process between the RF band signal and the baseband signal. Accordingly, many devices for converting to the intermediate frequency band are required, and there is a problem in that noise is generated by processing signals in the intermediate frequency band.

The present invention was created in view of the above problems, and in converting between an RF band signal and a baseband signal, by directly converting a signal to match each other's frequency band, a frequency in a communication system that can prevent noise generation The object is to provide a conversion device.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram schematically showing the configuration of a frequency converter in a conventional communication system.

2 is a view schematically showing a configuration of a frequency converter in a communication system according to the present invention.

<Explanation of symbols for main parts of the drawings>

101, 201 ... Duplexer 102, 202 ... Low Noise Amplifier

103, 214 ... Down Mixer 104, 215 ... Up Mixer

105, 205 ... power amplifier module 110 ... local processor

111, 211 ... Temperature compensated crystal oscillators 112, 212 ... Phase locked loop

113, 213 ... voltage controlled oscillator 120 ... medium frequency receiver

130 ... Intermediate frequency transmitter 203 ... Receive signal auto gain regulator

204 ... Transmit signal auto gain regulator 210 ... Direct conversion mixer

220 ... baseband analog processor

In order to achieve the above object, a frequency conversion device in a communication system according to the present invention,

A duplexer for transmitting and receiving a signal;

An up mixer that converts a baseband transmission signal into an RF band signal and transmits the signal through the duplexer; a down mixer that converts a received signal of the RF band received by the duplexer into a baseband signal; Its feature is that it includes a Direct Conversion Mixer (DCM) with a phase locked loop that provides the down mixer with a stable reference frequency for frequency conversion.

Here, there is a feature in that it further comprises a baseband analog processor for converting the baseband analog signal to a digital signal.

According to the present invention, in the conversion between the RF band signal and the baseband signal, by using the direct conversion mixer directly converts the signal for each frequency band, there is an advantage that can reduce the number of components and prevent the occurrence of noise have.

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

2 is a view schematically showing the configuration of a frequency converter in a communication system according to the present invention.

Referring to Figure 2, the frequency conversion apparatus in the communication system according to the present invention, a duplexer 201 for transmitting and receiving a signal, a low noise amplifier 202 for amplifying the RF signal received from the duplexer 201, A received signal automatic gain adjuster 203 for adjusting the magnitude of the signal transmitted from the low noise amplifier 202 and an RF band signal received from the received signal automatic gain adjuster 203 are converted into a baseband signal, A direct conversion mixer 210 for converting a transmission signal of a band into an RF band signal, a transmission signal auto gain regulator 204 for adjusting a signal size of an RF band transmitted from the direct conversion mixer 210, and the transmission signal And a power amplifier module 205 that amplifies the signal input from the automatic gain adjuster 204 and transmits it to the duplexer 201.

Here, the direct conversion mixer 210 includes a down mixer 214 for converting an RF band signal into a baseband signal, an up mixer 215 for converting a signal of a miractal band into an RF band signal, and the down mixer ( A phase locked loop 212 for providing a stable reference frequency for frequency conversion to the 214 and up mixer 215, a temperature compensated crystal oscillator 211 for delivering a sync signal to the phase locked loop 212, and A voltage controlled oscillator 213 is provided to provide an oscillation frequency to the phase locked loop 212.

Then, the frequency conversion process of the frequency conversion device in the communication system according to the present invention including the above components will be described.

First, referring to a signal reception operation, a signal of an RF band is received through the duplexer 201. Accordingly, the signal of the RF band received through the duplexer 201 is amplified to the appropriate signal strength in the low noise amplifier 202 and transmitted to the received signal automatic gain adjuster 203.

Accordingly, the received signal automatic gain adjuster 203 amplifies and outputs a signal when the input signal level is low, attenuates and outputs the signal when the input signal level is high, and directly outputs the output signal. Transfer to the transform mixer 210.

Meanwhile, the phase locked loop 212 of the direct conversion mixer 210 receives a synchronization signal from the temperature compensated crystal oscillator 211, stabilizes the oscillation frequency of the voltage controlled oscillator 213, and lowers the stabilized reference frequency. To the mixer 214. Accordingly, the down mixer 214 converts the signal of the RF band received by the duplexer 201 into a baseband signal by the frequency transmitted from the phase locked loop 212.

In addition, referring to the signal transmission operation, the baseband transmission signal to be transmitted is input to the up mixer 215 of the direct conversion mixer 210. At this time, the phase-locked loop 212 of the direct conversion mixer 210 receives the synchronization signal from the temperature compensated crystal oscillator 211, stabilizes the oscillation frequency of the voltage controlled oscillator 213, and converts the stabilized reference frequency into the To the up mixer 215.

Accordingly, the up mixer 215 converts the input baseband transmission signal into a signal of the RF band by the frequency applied from the phase locked loop 212. In this way, the intensity of the signal is converted through the transmission signal automatic gain adjuster 204 is converted into a signal of the RF band. In addition, the power amplifier module 205 amplifies the magnitude of the signal transmitted from the transmission signal automatic gain regulator 204 and transfers the signal to the duplexer 201, the duplexer 201 transmits the transmitted signal Send it.

Meanwhile, the baseband analog processor 220 employed in the frequency converter in the communication system according to the present invention converts the baseband analog signal into a digital signal.

As described above, the frequency conversion device in the communication system according to the present invention, in the conversion between the RF band signal and the baseband signal, by directly converting the signal to match the frequency band between each other using a direct conversion mixer, There is an advantage that can reduce the noise and prevent the occurrence of noise.

Claims (2)

A duplexer for transmitting and receiving a signal; An up mixer that converts a baseband transmission signal into an RF band signal and transmits the signal through the duplexer; a down mixer that converts a received signal of the RF band received by the duplexer into a baseband signal; And a direct conversion mixer having a phase locked loop for providing a down mixer with a stable reference frequency for frequency conversion. The method of claim 1, And a baseband analog processor for converting the baseband analog signal into a digital signal.