KR100848243B1 - Microwave Repeter System With Sychronazing Modem - Google Patents

Abstract

The present invention relates to a wireless relay system using modem synchronization to secure transmission and reception synchronization of a traffic signal between a wireless transmission device and a wireless reception device using a modem.

According to an aspect of the present invention, there is provided a wireless transmission apparatus for mixing and transmitting a modem signal and a traffic signal obtained by modulating an internal reference clock period at a predetermined magnification and then modulating it through a first modem; An upconversion module for upconverting a signal band in which a traffic signal and a modem signal, which are signals transmitted from the wireless transmission device, to a specific frequency band suitable for a transmission frequency environment and transmitting the same through an antenna; A downconversion module configured to receive a signal of a specific frequency band transmitted from the upconversion module through an antenna and then down-convert the received signal of a specific frequency band into a frequency band signal suitable for an internal environment; After separating the modem signal and the traffic signal from the signal transmitted from the downconversion module, demodulate the separated modem signal through the second modem and adjust the period of the internal reference clock for the traffic signal processing based on the demodulated signal By implementing a wireless relay system using a modem synchronization including a wireless receiving device to secure transmission and reception synchronization, a modem is added as compared to the case of using a separate pilot signal analysis method for maintaining synchronization between a wireless transmission device and a wireless receiving device. It is possible to secure accurate transmission and reception synchronization by simply implementing a circuit, and also to secure accurate transmission and reception synchronization at a low cost compared to the case of using the conventional synchronization recovery method using GPS.

Description

Wireless relay system using modem synchronization {Microwave Repeter System With Sychronazing Modem}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless relay system, and more particularly, to a wireless relay system using modem synchronization to secure transmission and reception synchronization of a traffic signal between a wireless transmission device and a wireless reception device using a modem.

In general, when a transmitting device and a receiving device use a reference clock that is not the same in a wireless relay system, quality deterioration occurs, so mutual synchronization must be maintained between the two devices. In order to keep the output frequency of the device the same, a reference clock is required to secure synchronization.

As an example, a conventional wireless relay system is schematically described. As shown in FIG. 1, a wireless transmitting device 11 (eg, a donor RF module) and a wireless receiving device 12 (eg, a remote RF) are illustrated. Module), wherein the radio transmitter 11 and the radio receiver 12 use frequency conversion to perform a baseband switching function for frequency transmission of a desired band and suppression of a third-party band signal (Mixer). ) Is used. The first frequency converter 11-1 of the radio transmitting apparatus 11 converts a service signal into an intermediate frequency (IF) band in order to minimize the influence of other band signals on a service signal input through an antenna or the like ( It may be omitted depending on the system characteristics), and the second frequency converter 11-2 performs a frequency conversion to the frequency band used in the wireless section in the wireless transmission device 11 that is connected wirelessly. The third frequency converter 12-1 of the wireless receiver 12 converts a service signal into an intermediate frequency band in order to minimize the influence of other band signals on a service signal input in a wireless section through an antenna ( May be omitted depending on system characteristics), and the fourth frequency converter 12-2 converts the frequency into the service frequency band of the wireless section in the wireless receiver 12 that is connected wirelessly.

In the conventional wireless relay system, in order for each of the frequency converters 11-1 and 11-2 to perform accurate frequency conversion, a local frequency is required for the radio transmitter 11 and the radio receiver 12, respectively. The local oscillator generating the frequency needs a reference clock generated by the reference clock generators 11-3 and 12-3.

In addition, in the conventional 11 GHz band microwave relay system, a method of analyzing a pilot signal by transferring a separate pilot signal in order to provide a reference clock necessary for maintaining synchronization between a radio transmitter and a radio receiver. Or a synchronous recovery method using a GPS (Global Positioning System).

However, the above-described synchronization recovery method using GPS has the disadvantage that accurate synchronization is possible, but it takes a lot of cost to implement, and the synchronization method using the pilot has a disadvantage of requiring a complicated circuit for pilot signal analysis.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to secure transmission and reception synchronization of a wireless relay system using modem synchronization.

Another object of the present invention, by securing the transmission and reception synchronization of the wireless relay system using the modem synchronization, compared to the case of using a separate pilot signal analysis method in the prior art to ensure accurate transmission and reception synchronization by simply implementing a circuit by adding a modem. It is to make it possible.

Still another object of the present invention is to secure transmission / reception synchronization of a wireless relay system using modem synchronization, so that accurate transmission / reception synchronization can be secured at a lower cost than in the case of using the conventional synchronization recovery method using GPS. .

A feature of the present invention for solving the above object is a radio transmitting apparatus for mixing and transmitting a modem signal and a traffic signal obtained by modulating the internal reference clock period at a predetermined magnification and then modulating through a first modem; An upconversion module for upconverting a signal band in which a traffic signal and a modem signal, which are signals transmitted from the wireless transmission device, to a specific frequency band suitable for a transmission frequency environment and transmitting the same through an antenna; A downconversion module configured to receive a signal of a specific frequency band transmitted from the upconversion module through an antenna and then down-convert the received signal of a specific frequency band into a frequency band signal suitable for an internal environment; After separating the modem signal and the traffic signal from the signal transmitted from the downconversion module, demodulate the separated modem signal through the second modem and adjust the period of the internal reference clock for the traffic signal processing based on the demodulated signal The present invention provides a wireless relay system using modem synchronization, which includes a wireless reception device for securing transmission and reception synchronization.

The wireless transmission apparatus may include: a first reference clock generator generating an internal reference clock; A transmission controller which analyzes the period of the reference clock generated by the first reference clock generator and divides and transmits the signal at a predetermined magnification period used by the modem; A first modem for modulating a periodic signal having a predetermined magnification delivered from the transmission control unit and outputting a modulated modem signal; And a signal mixer for mixing the traffic signal to be transmitted to the radio receiver with the modem signal output from the first modem and transmitting the mixed signal to the upconversion module.

The upconversion module is characterized by upconverting the signal band in which the traffic signal and the modem signal are mixed into the 11 GHz band and transmitting the same through the antenna.

The wireless receiving apparatus may further include: a second reference clock generator configured to generate an internal reference clock; A signal distributor which separates and transmits a modem signal and a traffic signal from a signal transmitted from a downconversion module; A second modem which demodulates and transmits a modem signal transmitted from the signal distribution unit; After adjusting the period of the reference clock generated by the second reference clock generator to a period of a constant magnification in the same way as the radio transmitter, the period of the scaled reference clock is compared with the signal period demodulated by the second modem. And a reception control unit that adjusts the reference clock generation of the second reference clock generator by the difference to ensure the same reference clock period as that of the radio transmitter.

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

In the present invention, a method using a modem signal is implemented to provide a reference clock necessary for maintaining synchronization between a wireless transmitting device and a wireless receiving device of a wireless relay system. The wireless transmitting device uses a modem to transmit a signal proportional to a reference clock period. The radio receiver transmits the signal received from the radio transmitter to a magnification known by the modem to match the reference clock period and the adjusted period of the radio receiver, so that the radio receiver and the radio receiver are adjusted. Motivation is maintained.

That is, in the wireless relay system using the modem synchronization according to the present invention, as shown in FIG. 2, the wireless transmitter 20, the up-conversion module 30, the down-conversion module 40, and the wireless reception. With the device 50.

The wireless transmission apparatus 20 divides the period of the internal reference clock used in the apparatus at a predetermined magnification and then mixes the modem signal and the traffic signal obtained by modulating through the first modem 25 to the upconversion module 30. The wireless transmission apparatus 20 for this purpose includes a first frequency converter 21, a second frequency converter 22, a first reference clock generator 23, and a first reference clock. The period of the reference clock generated by the generation unit 23 is analyzed and divided into a period of a constant magnification (or a period of a constant magnification that can be controlled by the transmission control unit 24 itself) used in the modem, and the first modem 25 A first modem 25 for modulating a periodic signal having a predetermined magnification transmitted from the transmission control unit 24 and outputting a modulated modem signal, and a second frequency converter ( 22) and the modem signal output from the first modem 25 It includes a signal mixing unit 26 for mixing to pass to the up-conversion module (30).

The up-conversion module 30 may convert a signal transmitted from the signal mixer 26 of the wireless transmitter 20, that is, a signal band in which a traffic signal and a modem signal are mixed, into a specific frequency band (eg, for a transmission frequency environment of the relay system). , 11 GHz) and up-converts to the wireless receiver 50 through an antenna.

The down conversion module 40 down-converts a signal of a specific frequency band received through an antenna into an original frequency band signal, that is, a frequency band signal suitable for an internal environment of a transceiver, and transmits the signal to the wireless receiver 50. It plays a role.

After receiving the modem signal and the traffic signal from the signal transmitted from the downconversion module 40, the wireless receiver 50 demodulates the separated modem signal through the second modem 55 and based on the demodulated signal. By adjusting the period of the internal reference clock for processing the corresponding traffic signal so as to have the same period as the radio transmitter 20 side to secure transmission and reception synchronization, the radio receiver 50 for this is the third frequency converter The modem signal is separated from the signal transmitted from the signal 51 and the fourth frequency converter 52, the second reference clock generator 53, and the downconversion module 40, and then transmitted to the second modem 55. And a signal distribution unit 54 for transmitting the traffic signal to the third frequency conversion unit 51, and a second modem 55 for demodulating and transmitting the modem signal transmitted from the signal distribution unit 54 to the reception control unit 56. ) And the reference clock generated by the second reference clock generator 53 After adjusting the period of the clock to a period of a constant magnification in the same way as the radio transmitting apparatus 20 side, the period of the scaled reference clock and the signal period demodulated by the second modem 55 are compared and the second reference by the difference. The reception control unit 56 adjusts the reference clock generation of the clock generation unit 53 to secure the same reference clock period as that of the radio transmitter 20 side.

The transmission and reception synchronization procedure of the wireless relay system according to the present invention based on the above-described configuration will be described in detail as follows.

First, the first frequency converter 21 and the second frequency converter 22 of the wireless transmitter 20 synchronize with the period of the reference clock generated from the first reference clock generator 23 in synchronization with the wireless receiver. Frequency conversion processing is performed on the traffic signal to be transmitted to the 50 side.

At this time, the transmission control unit 24 divides the period of the reference clock generated by the first reference clock generator 23 into a period of a predetermined magnification used in the modem, and transmits the period to the first modem 25. 25 modulates a periodic signal of a predetermined magnification delivered from the transmission control section 24, and then outputs a modulated modem signal. For reference, the transmission control unit 24 divides the period of the reference clock by a period of a constant magnification used in the modem. As shown in FIG. 3, the transmission control unit 24 divides the reference clock by the transmission control unit 24. Assuming 10 MHz, '1 sec = [Ref. (10 MHz)] / (10 * 10 ⁶ )' can be applied to control the modulation of the first modem 25 by the frequency division which the transmission control section 24 can control. Can be expressed).

In addition, the signal mixer 26 of the wireless transmitter 20 mixes the traffic signal output from the second frequency converter 22 and the modem signal output from the first modem 25 to thereby up-convert the module 30. Will be sent to.

Then, the up-conversion module 30 converts a signal transmitted from the signal mixing unit 26 of the radio transmitting apparatus 20, that is, a signal band in which traffic signals and modem signals are mixed, into a specific frequency suitable for a transmission frequency environment of the radio relay system. After up-converting to a band, for example, 11 GHz, the antenna is transmitted to the radio receiver 50 through an antenna.

Therefore, when the down conversion module 40 of the wireless receiving apparatus 50 receives a signal of a specific frequency band through an antenna, the internal environment of the wireless receiving apparatus 50 receives a signal of a specific frequency band, for example, 11 GHz band. Down-converts the frequency band signal according to the signal to be delivered to the wireless receiver 50.

At this time, the signal distribution unit 54 of the wireless receiver 50 separates the modem signal from the signal transmitted from the downconversion module 40 and transmits it to the second modem 55, and at the same time the modem signal is separated The traffic signal is transferred to the third frequency converter 51.

Subsequently, when the second modem 55 receiving the modem signal from the signal distributor 54 demodulates the modem signal and transmits the modem signal to the reception controller 56, the reception controller 56 receives the second reference clock generator ( After adjusting the period of the reference clock generated by 53) to a period of a constant magnification used in the modem in the same manner as the radio transmitting apparatus 20 side, the period of the magnified reference clock and the demodulation by the second modem 55 are performed. Compared signal periods are adjusted and the reference clock generation of the second reference clock generator 53 is adjusted by the difference to secure the same reference clock period as that of the radio transmitter 20.

In addition, the third frequency converter 51 and the fourth frequency converter 52 of the wireless receiver 50 may receive a period of the reference clock generated by the second reference clock generator 53, that is, the reception controller 56. By converting the traffic signal (that is, the received traffic signal) transmitted from the signal distributor 24 into the service frequency band of the radio section in synchronization with the reference clock period adjusted in the same manner as the radio transmission apparatus 20 by Done. As a result, traffic transmission synchronization can be maintained between the radio transmitter 20 and the radio receiver 50 constituting the radio relay system.

In addition, the embodiment according to the present invention is not limited to the above, and various alternatives, modifications and changes can be made within the scope apparent to those skilled in the art in connection with the present invention, for example In the above-described embodiment, the mixed position of the modem signal output from the first modem 25 is described as being located at the output terminal of the radio transmitter 20 and the signal distribution position at the input terminal of the radio receiver 50. On the contrary, the mixed position of the modem signal output from the first modem 25 may be located at the input terminal of the radio transmitter 20 or the signal distribution position may be located at the output terminal of the radio receiver 50.

As described above, the present invention secures the transmission and reception synchronization of the wireless relay system by using the modem synchronization, thereby adding a modem as compared to the case of using a separate pilot signal analysis method for maintaining synchronization between the radio transmission apparatus and the radio reception apparatus. It is possible to secure accurate transmission and reception synchronization by simply implementing a circuit, and also to secure accurate transmission and reception synchronization at a low cost compared to the case of using the conventional synchronization recovery method using GPS.

1 is a view schematically showing a conventional wireless relay system.

2 is a diagram illustrating a wireless relay system using modem synchronization according to the present invention.

FIG. 3 is a diagram for dividing a period of a reference clock by a period of a constant magnification in FIG. 2.

Explanation of symbols on the main parts of the drawings

20: wireless transmission apparatus 21: first frequency conversion unit

22: second frequency converter 23: first reference clock generator

24: transmission control unit 25: first modem

26: signal mixing unit 30: up-conversion module

40: down conversion module 50: wireless receiving device

51: third frequency converter 52: fourth frequency converter

53: second reference clock generator 54: signal distributor

55: second modem 56: reception control unit

Claims (4)

In a wireless relay system using a modem synchronization, A radio transmitting apparatus for mixing and transmitting a modem signal and a traffic signal obtained by modulating an internal reference clock period at a predetermined magnification and then modulating it through a first modem; An upconversion module for upconverting a signal band in which a traffic signal and a modem signal, which are signals transmitted from the wireless transmission device, to a specific frequency band suitable for a transmission frequency environment and transmitting the same through an antenna; A downconversion module configured to receive a signal of a specific frequency band transmitted from the upconversion module through an antenna and then down-convert the received signal of a specific frequency band into a frequency band signal suitable for an internal environment; After separating the modem signal and the traffic signal from the signal transmitted from the downconversion module, demodulate the separated modem signal through the second modem and adjust the period of the internal reference clock for the traffic signal processing based on the demodulated signal Wireless relay system using a modem synchronization, characterized in that it comprises a wireless receiving device for securing transmission and reception synchronization. The method of claim 1, The wireless transmission apparatus includes a first reference clock generator for generating an internal reference clock; A transmission controller which analyzes the period of the reference clock generated by the first reference clock generator and divides and transmits the signal at a predetermined magnification period used by the modem; A first modem for modulating a periodic signal having a predetermined magnification delivered from the transmission control unit and outputting a modulated modem signal; And a signal mixer which mixes the traffic signal to be transmitted to the radio receiver and the modem signal output from the first modem, and transmits the mixed signal to the upconversion module. The method of claim 1, The up-conversion module is a wireless relay system using a modem synchronization, characterized in that up-converting the signal band mixed with the traffic signal and the modem signal to the 11GHz band and transmitted through the antenna. The method of claim 1, The wireless receiver includes: a second reference clock generator configured to generate an internal reference clock; A signal distributor which separates and transmits a modem signal and a traffic signal from a signal transmitted from a downconversion module; A second modem which demodulates and transmits a modem signal transmitted from the signal distribution unit; After adjusting the period of the reference clock generated by the second reference clock generator to a period of a constant magnification in the same way as the radio transmitter, the period of the scaled reference clock is compared with the signal period demodulated by the second modem. And a receiving control unit which adjusts the reference clock generation of the second reference clock generator by the difference to secure the same reference clock period as that of the radio transmitter.