KR100340000B1 - Device for measuring rru transmission/receive electric power gain of micro bts - Google Patents

Abstract

The present invention measures the transmit / receive power gain of a sub-unit when checking the state of the sub-unit in the main base station in a situation where the base station is divided into main and sub units, such as a micro base station, especially a main base station and a remote wireless unit The present invention relates to a remote wireless unit transmit / receive power gain measuring apparatus of a micro base station, which enables self-diagnosis of sub-unit abnormality. When the base station is divided into main and sub units, such as base station and remote wireless unit, the state of the remote unit is measured by measuring the transmit / receive power gain of the state of the remote radio unit. There is an effect that can be checked.

Description

DEWICE FOR MEASURING RRU TRANSMISSION / RECEIVE ELECTRIC POWER GAIN OF MICRO BTS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a micro base station. In particular, when a base station is divided into a main unit and a sub unit, such as a main base station and a remote wireless unit, when the state of the sub unit is checked at the main base station, the transmit / receive power of the sub unit The present invention relates to a remote wireless unit transmit / receive power gain measuring device of a micro base station that enables self-diagnosis of a subunit by measuring a gain.

As the conventional large base station and the recent micro base station are shown in Fig. 1, the large base station is not a problem to check the status because the wireless unit exists in one rack, but the recent small base station is the main base station and the remote wireless unit It is divided into (RRU: Remote RF Unit).

Therefore, it is not easy to check the status of the remote wireless unit at the main base station, it is not easy to check itself, and since the remote wireless unit is installed in a transmission tower up to 50M high from the main base station, the necessity of self-checking is not necessary. There was a problem that it must be done but not easy to check without the help of other blocks.

Accordingly, the present invention is to solve the above conventional problems, an object of the present invention is to apply a signal through the transmission path of the micro base station and then measure the power gain through the reception path, the remote wireless unit in the main base station The present invention provides a device for measuring a power gain of a remote wireless unit of a micro base station to enable self-checking.

In order to achieve the above object, a remote wireless unit transmit / receive power gain measuring apparatus of a micro base station according to the present invention includes: a base band generating an IF signal and measuring a power gain of a transmit / receive RF signal; from the base band A wireless unit that receives an IF signal and converts it into an RF signal and outputs the RF signal; The RF unit receives an RF signal from the wireless unit and transmits / receives an RF signal to a base station and a terminal, and receives a power gain of the transmit / receive RF signal from the baseband. It consists of a remote wireless unit that switches RF signals for self-measurement.

1 is a block diagram showing a conventional large base station and a micro base station,

2 is a block diagram illustrating an apparatus for measuring power gains of a remote wireless unit of a micro base station according to an embodiment of the present invention;

3 is a block diagram showing a switching means in a remote wireless unit transmit / receive power gain measurement apparatus of a micro base station according to an embodiment of the present invention;

4 is a block diagram illustrating a path for measuring a transmit power gain in a remote wireless unit transmit / receive power gain measuring apparatus of a micro base station according to an embodiment of the present invention;

FIG. 5 is a block diagram illustrating a path for measuring a received power gain of a first antenna in a remote wireless unit transmit / receive power gain measuring apparatus using a microwave switch according to an embodiment of the present invention; FIG.

FIG. 6 is a block diagram illustrating another path of measuring a received power gain of a first antenna in a remote wireless unit transmit / receive power gain measuring apparatus using a microwave switch according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100: baseband 200: wireless unit

300: remote wireless unit 310: amplification means

311: high power amplifier 312: first low noise amplifier

313: second low noise amplifier 320: filter means

321: duplexer filter 322: filter

330: switching means SW1 to SW6

331 variable attenuator 332 oscillator

333 mixer 334 insulator

Hereinafter, a remote wireless unit transmit / receive power gain measuring apparatus of a micro base station according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing an apparatus for measuring transmission / reception power gain of a remote base station of a micro base station. FIG. 3 is a block diagram showing a switching means in an apparatus for measuring transmission / reception power gain of a remote base station of a micro base station. A block diagram showing a path for measuring a transmit power gain in a device for measuring a transmit / receive power gain using a switch.

FIG. 5 is a block diagram illustrating a path for measuring a reception power gain of a first antenna in a remote wireless unit transmit / receive power gain measuring apparatus of a micro base station, and FIG. 6 is a remote wireless unit transmit / receive power gain measurement of a micro base station. A block diagram illustrating another path for measuring the received power gain of the first antenna in the device.

3 to 6, the base band 100, a wireless unit 200 and a remote wireless unit 300, the remote wireless unit 300 is amplification means 310, filter Means 320 and switching means 330, and the amplifying means 310 comprises a high power amplifier 311, a first low noise amplifier 312 and a second low noise amplifier 313, the filter means 320 includes a duplexer filter 321 and a filter 322.

In addition, the switching means 330 is composed of SW1 to SW6, the variable attenuator 331, the oscillator 332, the mixer 333 and the insulator 334, the baseband 100 generates an IF signal, And, it serves to measure the power gain of the transmit / receive RF signal, and the wireless unit 200 receives the IF signal from the base band 100 and converts to an RF signal and outputs.

In addition, the remote wireless unit 300 receives the RF signal from the wireless unit 200 to the base station and the terminal to receive or receive the RF signal from the outside, while transmitting and receiving the RF signal in the base band 100 It switches the RF signal to allow self-measurement of the power gain.

Subsequently, the amplifying means 310 of the remote wireless unit 300 receives and amplifies an RF signal from the wireless unit 200 and amplifies a received RF signal, and the filter means 320 The RF signal is received from the amplifying means 310 and output to the switching means 330, and the received RF signal is input to filter the desired frequency band.

In addition, the switching means 330 receives the RF signal from the filter means 320 and performs a switching operation to designate a path for measuring the power gain of the transmitted RF signal, while the path for measuring the received power gain. It acts as a switching operation to specify.

Meanwhile, the large power amplifier 311 of the amplifying means 310 receives and amplifies an RF signal from the wireless unit 200, and the first and second low noise amplifiers 312 and 313 generate an RF signal. It takes the input and removes the noise and amplifies it.

In addition, the duplexer filter 321 of the filter means 320 transmits the RF signal amplified by the high power amplifier 311 to the switching means 330, while the RF received through the first antenna 1000 The filter 322 filters and transmits the signal to a desired frequency band, and the filter 322 receives an RF signal received from the first antenna 1000 or an RF signal received through the second antenna 2000. It filters and outputs the band.

Subsequently, SW1 of the switching means 330 is switched in the direction of the first antenna 1000 when measuring the transmission power gain of the transmission RF signal filtered and transmitted by the duplexer filter 321, while receiving power gain When measuring the serves to be connected in the direction of the second antenna (2000).

In addition, the SW2 is connected to the second antenna 2000 when measuring the transmission power gain by receiving the transmission RF signal transmitted through the SW1, while the actual transmission is directed to the first antenna 1000. It acts as a connection.

Subsequently, the SW3 is connected to SW6 in the SW1 direction when receiving the transmission RF signal transmitted through the SW2 and measuring the transmission power gain, and is in the direction of the second antenna 2000 when measuring the reception power gain. The variable attenuator 331 is connected to the variable attenuator 331, and the variable attenuator 331 receives a received RF signal transmitted through the SW3 and attenuates the amplitude of the RF signal.

In addition, the oscillator 332 serves to generate a constant frequency pulse, and the mixer 333 inputs a received RF signal transmitted through the variable attenuator 331 and a frequency pulse generated from the oscillator 332. It outputs the received signal so that the received power gain can be measured.

In addition, the SW4 is connected to the insulator 334 in the filter means 320 direction when receiving the RF signal received from the mixer 333 and measuring the power gain received through the first antenna 1000. On the other hand, it serves to be connected to the SW5 direction of the second antenna 2000 through the same path as when measuring the power gain of the received RF signal received through the second antenna 2000.

Meanwhile, the SW5 is connected to the filter 322 when receiving the received RF signal transmitted through the SW4 and measuring the power gain received through the second antenna 2000 through the same path. Meanwhile, when a received RF signal is actually input through the second antenna 2000, the second antenna 2000 is connected to the second antenna 2000.

In addition, the insulator 334 is connected between the SW1 and the SW4 to prevent the transmission RF signal transmitted through the SW1 from being transmitted in the SW4 direction, and the SW6 is used to measure the transmission power gain. While connected to the SW3, when measuring the power gain received through the first antenna (1000) serves to be connected to the first low noise amplifier 312 of the amplification means (310).

Hereinafter, the operation of the remote wireless unit transmit / receive power gain measurement apparatus of the micro base station configured as described above will be described.

When the baseband 100 outputs an IF signal to transmit data to a base station or a terminal (not shown), the wireless unit 200 receives an IF signal from the baseband 100 and converts it into a transmitted RF signal. do.

Then, the large power amplifier 311 of the amplification means 310 of the remote wireless unit 300 receives the RF signal transmitted from the wireless unit 200, amplifies the signal to a predetermined level, and outputs it. When the duplexer filter 321 receives the transmitted RF signal amplified from the high power amplifier 311 and transmits it, the first antenna receives the transmitted RF signal from the duplexer filter 321 at SW1 of the switching means 330. Switching connection in the direction of (1000).

Subsequently, a transmission RF signal transmitted through SW1 in SW2 is connected to the first antenna 1000 so that the RF signal transmitted through SW1 can be transmitted to an external base station or terminal, and the RF signal is transmitted through the first antenna 1000. Is sent.

On the other hand, when a transmission RF signal transmitted from an external base station or a terminal (not shown) is received through the first antenna 1000, the duplexer filter 321 is received through the SW2 and SW1, and the duplexer filter ( 321 filters and outputs the received RF signal received through the SW2 and SW1 to a desired frequency band.

Subsequently, when the first low noise amplifier 312 receives the received RF signal from the duplexer filter 321, removes noise, amplifies and outputs a predetermined level, the first low noise amplifier 312 in the wireless unit 200. It receives the received RF signal from the IF signal and converts it to the base band 100.

In addition, when a received RF signal transmitted from an external base station or a terminal is received through the second antenna 2000, the switching is connected to the second antenna 2000 in SW5, the filter 322 receives the RF signal through the SW5 After receiving and filtering the desired frequency band and outputting it, the second low noise amplifier 313 receives the RF signal, removes the noise, amplifies the signal to a predetermined level, and outputs the same.

Then, the RF unit receives a predetermined level amplified RF signal from the second low noise amplifier 313 in the wireless unit 200 in the same manner as the RF signal received through the first antenna 1000 and converts the IF signal into the base signal. Output to the band 100, and receives the RF signals received through the first and second antennas (1000, 2000) from the base band 100 to process data transmitted from an external base station or a terminal.

At this time, when the user inputs a key signal for measuring the transmission power gain of the remote wireless unit 300 to diagnose the abnormality of the remote wireless unit 300, the wireless unit as shown in FIG. The RF signal transmitted at 200 is transmitted to the SW2 through the high power amplifier 311, the duplexer filter 321, and the SW1.

Then, the SW2 is connected to SW3 in the direction of the second antenna 2000 so as to receive the transmission RF signal transmitted through the SW1 and measure the power gain, and transmit the transmission RF signal transmitted through the SW2 from the SW3. It receives the input and switches to SW6 in the SW1 direction to designate a path.

Subsequently, SW6 is switched connected to the SW3 to measure the power gain of the transmitted RF signal transmitted through the SW3, and the transmitted RF signal transmitted through the SW6 is transmitted to the baseband 100 through the wireless unit 200. And transmit power gain.

On the other hand, when a user inputs a key signal to measure the power gain of the RF signal received through the first antenna 1000, as shown in FIG. 5, the SW3 receives the received RF signal transmitted through the SW2. It is switched to the variable attenuator 331 in the direction of the second antenna 2000 and transmitted.

Then, the variable attenuator 331 receives the received RF signal transmitted through the SW3 and attenuates and outputs the amplitude of the signal, and the mixer 333 receives the received RF signal and the oscillator 332 output from the variable attenuator 331. Receives a constant frequency pulse from) and outputs the received RF signal to measure the received power gain.

Subsequently, the SW4 receives the received RF signal from the mixer 333 and is switched to the insulator 334 facing the filter means 320, and the received RF signal transmitted through the SW4 is transferred through the insulator 334. The insulator 334 prevents the transmitted RF signal from being transmitted to the SW4 when the transmitted RF signal is transmitted through the SW1.

Then, the SW1 is switched in the direction of the second antenna 2000, that is, the insulator 334, so that the received power gain can be measured, and the received RF signal transmitted through the SW1 is the duplexer filter 321, 1 is transmitted to the SW6 through the low noise amplifier 312.

Subsequently, the SW6 is switched in the state connected with the SW3 to receive the received RF signal output from the first low noise amplifier 312 so that the base band 100 can measure the received power gain. It is connected to the amplifier 312.

Meanwhile, when a user inputs a key signal to measure the power gain of the RF signal received through the first antenna 1000 through another reception path, as shown in FIG. 6, the mixer 333 in the SW4. The received RF signal output from the input switch is connected to SW5, which is the direction of the second antenna 2000 in the direction of the filter means 320, and designates a path.

Then, the SW5 receives the received RF signal transmitted through the SW4 and is switched to SW4 in the direction of the filter means 320 in the direction of the second antenna 2000, and the received RF signal transmitted through the SW5 The filter 322 is output to the wireless unit 200 through the second low noise amplifier 313.

Subsequently, when the wireless unit 200 converts the received RF signal output from the second low noise amplifier 313 into an IF signal and outputs the IF signal to the base band 100, the base unit 100 transmits the wireless unit ( It receives the received RF signal from the 200 and measures the power gain.

As described above, the remote wireless unit transmit / receive power gain measuring device of the present invention micro base station, like the main base station and the remote wireless unit, the base station is divided into a main unit and a sub unit in a situation where the state of the remote wireless unit is separated. By measuring the transmit / receive power gain, it is possible to check the status of the sub-unit without the need for a separate measuring device and personnel.

Claims (5)

A baseband generating an IF signal while measuring the power gain of the transmit / receive RF signal; A wireless unit which receives an IF signal from the base band and converts the IF signal into an RF signal; A remote wireless unit that receives an RF signal from the wireless unit, transmits / receives an RF signal to a base station and a terminal, and switches an RF signal so that the power gain of the transmit / receive RF signal from the baseband can be measured by itself. Remote wireless power gain measurement apparatus of a micro base station, characterized in that configured. The wireless wireless unit of claim 1, wherein the remote wireless unit receives and amplifies an RF signal from the wireless unit, amplifies means for amplifying a received RF signal, and receives and outputs an RF signal from the amplifying means. Filter means for receiving an RF signal and filtering to a desired frequency band, and the switching means for receiving the RF signal from the filter means for switching according to the transmission and reception RF signal, characterized in that it comprises a remote radio Unit Transmit / Receive Power Gain Measurement Device. The method of claim 2, wherein the switching means is switched to the first antenna direction when measuring the transmission power gain of the transmission RF signal filtered and transmitted by the duplexer filter of the filter means, while measuring the reception power gain SW1 connected in a direction of the second antenna; SW2 connected to the second antenna when receiving a transmission RF signal transmitted through the SW1 and measuring a transmission power gain, and connected to the first antenna when actually transmitting; SW3 connected to the filter means direction when receiving a transmission RF signal transmitted through the SW2 and measuring a transmission power gain, and connected to the second antenna direction when a reception power gain is measured; A variable attenuator receiving the received RF signal transmitted through the SW3 and attenuating the amplitude of the signal; An oscillator for generating a constant frequency pulse; A mixer configured to receive a received RF signal transmitted through the variable attenuator and a frequency pulse generated by the oscillator and output a received signal to measure a received power gain; When receiving the received RF signal from the mixer and measuring the power gain of the received RF signal received through the first antenna is connected in the direction of the filter means, while the power gain of the received RF signal received through the first antenna SW4 connected to the second antenna in order to select the same path as when measuring the received RF signal received through the second antenna when measuring through another receiving path; While receiving the received RF signal transmitted through the SW4 and measuring the power gain of the received RF signal received through the second antenna through the same reception path and connected to the other end of the filter means, SW5 connected to the second antenna when the received RF signal is actually input through the second antenna; An insulator connected between the SW1 and the SW4 to prevent a transmission RF signal transmitted through the SW1 from being transmitted in the SW4 direction; A micro base station comprising a SW6 connected to the SW3 when measuring a transmit power gain, and a SW6 connected to a first low noise amplifier of the amplifying means when measuring the power gain received through the first antenna. Remote wireless transmit / receive power gain measurement device. The duplexer filter according to claim 2, wherein the filter means receives an RF signal and outputs it to SW1 of the switching means, while receiving a received RF signal transmitted through the SW1, filtering the frequency signal of a desired band, and then outputting the duplexer filter. Wow; Remote wireless transmit / receive power gain measuring apparatus of claim 1, further comprising a filter for receiving the RF signal received through SW5 of the switching means and filtering the desired frequency band. 3. The apparatus of claim 2, wherein the amplifying means comprises: a high power amplifier for receiving an RF signal from the wireless unit and amplifying the RF signal to a predetermined level; A first low noise amplifier which receives a received RF signal from a duplexer filter of the filter means and removes noise and amplifies the signal to a predetermined level; And a second low noise amplifier configured to receive the received RF signal from the filter of the filter means, remove noise, and then amplify the signal to a predetermined level.