KR20140004182U - Apparatus for controlling of transmission power and base station for the same - Google Patents

Abstract

The present invention relates to a device for controlling the power of a femto base station in a mobile communication base station to control power of a signal transmitted from a peripheral base station and reducing its noise, and a base station therefor. The transmission power control apparatus of the present invention changes the path of the received peripheral base station signal to measure the power of the peripheral base station signal using the signal receiving path of the base station including the transmission power control apparatus, To control the transmission power of the base station including the transmission power control apparatus.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a transmission power control apparatus and a base station for the transmission power control apparatus.

In particular, the present invention relates to a mobile communication system, and more particularly, to a femto base station controlling a femtocell in a mobile communication base station, which measures the power of a signal transmitted from a neighbor base station and controls its own transmission power to reduce noise, And a base station for the base station.

Recently, due to the rapid development of communication, computer network and semiconductor technology, not only various services using wireless communication networks have been provided, but the demand of users has been increasing day by day, and the global wireless Internet service market has been exploding Trend. Accordingly, a service provided by a mobile communication system using a wireless communication network is being developed not only as a voice service, but also as a multimedia communication service for transmitting various data.

In the case of the existing base station, the system designer constructs the system by calculating and measuring the transmission power. However, in the case of the femto base station managing the femtocell, since it is installed in the home user's home, There is a problem that it acts as an interference component in the structure and adversely affects it. Therefore, the power of the signal transmitted from the neighboring base station is measured, and the base station reports the information and transmits information about the strength of power to be transmitted from the base station to perform initial setting.

As shown in FIG. 1, in order to measure the transmission power of a neighbor base station, a separate hardware path for receiving a signal transmitted from a neighbor base station is implemented in addition to a transmission and reception path (Tx, Rx path) When determining the power intensity to be transmitted, the processor in the base station determines its power to a predetermined value in a lookup table and sets the transmission power in the cell. When the transmission power of the base station is determined using the above method, several hardware paths may be overlapped in the base station. If the power of the corresponding base station is determined only in its own cell, it is difficult to maintain an organic relationship with the neighboring base station, and tuning work must be performed in order to match the actual usage environment. In addition, since the test environment and the actual use environment are often inconsistent, the conventional method of determining the transmit power has many problems.

Korean Patent Laid-Open No. 10-2009-0109768 (published on October 21, 2009) Korean Patent Laid-Open No. 10-2011-0049285 (published on May 12, 2011) Korean Patent Publication No. 10-2011-0065996 (published on June 16, 2011)

The present invention provides a device and a base station for controlling a transmission power of a femto base station in a mobile communication base station to measure a power of a signal transmitted from a neighbor base station and reduce noise,

The transmission power control apparatus of the present invention includes: a power measurement unit for measuring a power of the peripheral base station signal by using a signal reception path of a base station including a transmission power control apparatus by changing a path of a received peripheral base station signal; And a control unit for controlling the transmission power of the base station including the transmission power control apparatus using the power of the measured peripheral base station signal.

The transmission power control apparatus of the present invention also includes a control unit for setting and transmitting transmission power of a base station that measures the power of the peripheral base station signal using the power of the measured peripheral base station signal.

In addition, the base station of the present invention transmits and receives data with the user terminal including the transmission power control device.

According to the present invention, space and cost can be saved by configuring the TX frequency reception path of the neighbor base station using the TX transmission path and the RX reception path of the corresponding base station.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
2 is a block diagram showing a configuration of a transmission power control apparatus according to an embodiment of the present invention;
3 is an exemplary view showing a configuration of a transmission power control apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description, detailed description of well-known functions and configurations will be omitted when there is a concern that the gist of the present invention may be unnecessarily blurred.

Wireless data services such as code division multiple access (CDMA) 2000, evolution data only (EV-DO), wideband CDMA (WCDMA), and wireless local area network (WLAN) have been commercialized, A mobile communication service is provided by installing a small mobile communication base station indoors so as to access a mobile communication core network through an indoor broadband network according to the trend. In particular, in the next generation network system, a method of arranging a plurality of small-sized multi-cells (small-sized mobile communication base stations) as an alternative to meet a high data rate and stably providing various services is proposed. Such a small mobile communication base station is called an indoor base station or a femto base station. By reducing the size of the cell, the efficiency of a next generation network system using a high frequency band can be increased. In addition, the use of a plurality of small-sized cells is advantageous in terms of increasing the frequency reuse frequency. In addition, it is possible to improve the problem of deterioration of the channel condition due to the radio wave attenuation which occurred when one base station covers the entire cell area and the problem of inability to service the users in the shadow area, This has the advantage. Based on these advantages, there is a method of combining a macro cell of an existing macro cell (femto cell) managed by an outdoor base station with a femtocell (a cell area managed by an indoor base station or a femto base station) . In this embodiment, the base station may include characteristics of an outdoor base station or a femto base station.

2 is a block diagram showing a configuration of a transmission power control apparatus according to an embodiment of the present invention.

2, the transmission power control apparatus 100 may include a power measuring unit 110 and a control unit 120. [

The power measuring unit 110 may measure the power of the peripheral base station signal by using the signal receiving path of the base station including the transmission power control apparatus 100 by changing the path of the received peripheral base station signal. In one embodiment, the power measuring unit 110 includes means for changing the path of the received peripheral base station signal and means for integrating the path-altered peripheral base station signal into the receiving path of the base station including the transmission power control apparatus 100 . ≪ / RTI > The detailed configuration and function of the power measuring unit 110 will be described later with reference to FIG.

The control unit 120 can control the transmission power of the base station including the transmission power control apparatus 100 using the power of the peripheral base station signal measured by the power measuring unit 110. The controller 120 may set the transmission power of the base station including the transmission power controller 100 to the first transmission power when the measured power of the peripheral base station signal is greater than a preset threshold value, The transmission power of the base station including the transmission power control apparatus 100 can be set to the second transmission power when the power of the neighboring base station signal is less than a preset threshold value. The first transmission power may be set to have a value smaller than the second transmission power.

3 is an exemplary diagram showing a configuration of a transmission power control apparatus according to an embodiment of the present invention.

3, the transmission power control apparatus 100 includes a modem 1, a digital to analog converter (DAC) 2, a TX synthesis unit 3, a mixer 4, a TX band pass filter (BPF) band pass filter 5, a power amplifier 6, a rotator 7, a duplexer 8, a low noise amplifier (LNA) 9, a RX BPF 10 A switch 11, a mixer 12, an RX synthesizer 13, an analog to digital converter 14, a low noise amplifier 15, a TX BPF 16 and a central control station 17 ). In one embodiment, the rotator 7 may function as a means for changing the path of the received peripheral base station signal of the power measuring unit 110, and the switch 11 may switch the path- To the receiving path of the base station including the control device 100. [ However, the configurations of the rotator 7 and the switch 11 are not limited to the above-described embodiments.

The transmission / reception path is divided at the base station because the frequencies of the transmission signal TX and the reception signal RX are different. In the past, it consists of three paths: TX frequency transmit path, TX frequency receive path, and RX frequency receive path. On the other hand, in the present embodiment, space and cost can be saved by configuring the TX frequency reception path using the TX transmission path and the RX reception path.

A TX signal transmission path is a path in which a signal generated in a modem 1 is converted into an analog signal through a DAC 2 and a converted analog signal is transmitted through a TX combining unit 3 and a mixer 4 RF frequency signal. The modified RF frequency signal is then amplified and passed through the TX band-pass filter 5 only through the desired signal and amplified through a power amplifier (PAM) 6. The amplified transmission signal is transmitted only through the rotator 7 to the antenna. The signal passed through the rotator 7 is filtered through the duplexer 8 and then transmitted through an antenna.

In the RX signal receiving path, a signal received through the antenna passes through the duplexer 8, and only the frequency within the receivable range enters the receiving path. The passed signal is very weak and amplified through a low noise amplifier (9). The amplified signal passes through the RX BPF 10 and the switch 11 in order to eliminate the clutter. The switch is connected to the RX BPF 10 when it does not receive any other base station power. The signal passed through the switch 11 is converted into a base band signal through the mixer 12 and the RX synthesizer 13 and converted into a digital signal through the ADC 14 to be transmitted to the modem 1 do.

The method of measuring the power of the surrounding base station is as follows. Since the signal transmitted from the neighbor base station is a signal in the TX frequency band, the signal of the neighbor base station received through the antenna is input to the TX path of the duplexer 8. The signal having passed through the duplexer 8 can be changed to the RX path below the TX path while passing through the rotator 7. [ The received TX signal has a small signal intensity and must pass through the low noise amplifier 15. [ And passes through the TX BPF 160 which passes only the desired TX frequency in order to eliminate clutter in the signal amplified through the low noise amplifier 15. [ When the received TX signal passes through the switch 11 and the peripheral base station power measurement mode, the state of the switch 11 is cut off to the RX BPF 10 and the circuit is connected to the TX BPF 16 . The signals of the peripheral base stations input through the switch 11 are down converted into a TX base band signal through the mixer 12 and the RX synthesizer 13 and then converted into a base band signal by the ADC 14, To a digital signal. The peripheral base station signals changed to digital signals are demodulated and channel-decoded through the modem 1, and the power of the peripheral base station is transmitted to the central control station 17.

In the transmission power setting method of the base station, the base station can set the power monitoring of the neighbor base stations not to be continuous but to proceed once or twice a day. Because the wireless environment around the base station does not change every moment, there is no need to perform power monitoring frequently. It is possible to monitor the power of the neighboring base stations when TX is not used in the modem process part of the base station and the input signal is not frequently generated in the user terminal (for example, about 1:00 pm). When the monitored value is transmitted to the central control station 17, the central control station 170 determines the power of the small cell equipment in consideration of the power value of the peripheral base station. When the power of the neighboring base station is high, the power of the corresponding base station is set low, and when the power of the neighboring base station is weak, the power of the corresponding base station can be set high to cover the shadow area. The central control station 17 can flexibly utilize the power of peripheral base stations by utilizing the power monitoring function of the base station.

Usually, the base station transmits and receives data to and from a user equipment using the above-described TX signal transmission path or RX signal reception path. Then, the power of the peripheral base station signal is measured in the peripheral base station power measurement mode at a time when no TX signal is transmitted, and the measured value is transmitted to the central control station 17, and the central control station 17 adjusts the power setting And transmits the power to the measured base station. Then, the base station sets the TX signal transmission power using the power setting value and transmits the signal.

Although the present disclosure has been described in connection with some embodiments, it should be understood that various modifications and changes may be made thereto without departing from the spirit and scope of the present invention as understood by those skilled in the art to which the present invention belongs. something to do. It is also contemplated that such variations and modifications are within the scope of the claims appended hereto.

1: modem 2: DAC
3: TX synthesizer 4, 12: mixer
5, 16: TX band pass filter 6: PAM
7: Rotator 8: Duplexer
9: Low Noise Amplifier 10: RX Bandpass Filter
11: switch 13: RX synthesis section
14: ADC 15: LNA
17: central control station 100: transmission power control device
110: power measuring unit 120:

Claims (7)

A transmission power control apparatus comprising:
A power measuring unit for measuring a power of the peripheral base station signal by using a signal receiving path of the base station including the transmission power control unit by changing a path of the received peripheral base station signal; And
And a control unit for controlling the transmission power of the base station including the transmission power control apparatus by using the power of the measured peripheral base station signal. The method according to claim 1,
The power measuring unit may measure,
Means for changing the path of the peripheral base station signal and means for integrating the path altered peripheral base station signal into the receive path of the base station comprising the transmit power control device. The method according to claim 1,
Wherein,
Setting the transmission power of the base station including the transmission power control apparatus to a first transmission power when the measured power of the peripheral base station signal is greater than a predetermined threshold value and setting the power of the measured peripheral base station signal to the predetermined threshold value The transmission power control unit sets the transmission power of the base station including the transmission power control apparatus to a second transmission power. 3. The method of claim 2,
Wherein,
And sets the first transmission power to be smaller than the second transmission power. A transmission power control apparatus comprising:
And a controller for setting and transmitting a transmission power of a base station that measures the power of the peripheral base station signal using the measured power of the peripheral base station signal. 6. The method according to any one of claims 1 to 5,
Wherein,
And performs power measurement of the peripheral base station signal at a time when no signal transmission is performed by the base station measuring the power of the peripheral base station signal. As a base station,
A base station that transmits and receives data to and from a user terminal, including the transmission power control apparatus of claim 6.

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