KR20020046630A - Method and device for controling bts transmission of power - Google Patents

Abstract

PURPOSE: An apparatus and a method for controlling transmit power in a base station are provided to control the transmit power of an 1FA digital IF signal at a regular level through an IF block and to adjust the coverage and handoff of a base station more minutely so that base station zone setup with a neighbor areas can be easily achieved. CONSTITUTION: An apparatus for controlling transmit power in a base station is composed of a CPU(100), a gain control circuit(200), and a digital gain attenuation part(300). The CPU(100) first receives a transmit power default value from an operator and then outputs a transmit power control signal to the gain control circuit(200). Also, the CPU receives a transmit power value from an RF block, judges the value, and outputs a transmit power control signal to the gain control circuit(200). The gain control circuit(200) receives the transmit power control signal from the CPU(100) and outputs a corresponding gain control signal. The digital gain attenuation part(300) receives the gain control signal and an 1FA digital IF signal from the gain control circuit(200) and a channel card respectively, compensates the transmit power of the 1FA digital IF signal, and outputs the compensated signal to the RF block.

Description

Base station transmission power control device and method {METHOD AND DEVICE FOR CONTROLING BTS TRANSMISSION OF POWER}

The present invention relates to a base station transmit power control apparatus and method, and more particularly to a base station transmit power control apparatus and method for controlling the transmit power of the digital IF signal of 1 FA in the IF block.

As is well known, adjusting the coverage and handoff of the IMT-2000 mobile communication base station system makes the area flexible according to the transmit power of the base station. As such, efficient cover management between base stations requires adjustment of coverage and handoff. At this time, the RF block adjusts the transmission power gain of the 3 FA analog signal combined with the wideband signal, but requires fine transmission power control for more efficient management.

First, when the base station IF block receives a digital baseband signal from a channel card, the baseband IF signal is digitally added (combined with I / Q channels) for each FA and modulated into a 1 FA digital IF signal. Then, the mixing output unit receives the 1 FA digital IF signal from the base station IF block, adds the digital signal, modulates the 3 FA digital IF signal with the digital added 3 FA analog IF signal, and transmits the RF block. The RF block then outputs a 3 FA analog IF signal and controls the transmit power by using a potentiometer or the like to gain the gain of the analog attenuator or amplifier in the RF block in controlling the transmit power to adjust the base station cover age and handoff. It was.

However, by controlling the transmit power in which the 3 FA analog IF signals are combined in the analog RF block, it is not only possible to control the transmit power for each FA, but also to adjust the overall transmit power of the 3 FA. Adjusting the gain of the amplifier by using a problem that causes a decrease in the reliability and performance of the system.

As another problem, it was not possible to fine tune the transmission power of the IMT-2000 mobile communication base station system.

Accordingly, the present invention has been made to solve the conventional problems as described above, and an object of the present invention is to control the transmission power of the 1 FA digital IF signal in the IF block to a constant level to further improve the base station cover age and handoff. By making fine adjustments to facilitate the setting of the adjacent area and the base station area, and using the digital attenuation circuit, it is possible to improve the performance and quality of the system as well as to provide more accurate power control. To provide.

In order to achieve the above object, the base station transmission power control apparatus of the present invention receives a channel card for outputting a digital baseband signal, a digital baseband signal, and receives a digital baseband signal and converts the 3FA analog IF signal into an RF block. In the transmission power control apparatus in a base station consisting of a base station IF block,

The base station IF block outputs a transmission power control signal corresponding to the first reception of the transmission power default value from the operator, and then outputs the corresponding transmission power control signal when the transmission power value is received from the RF block. A central processing unit;

A gain control circuit for receiving a transmission power control signal from the central processing unit and outputting a gain transmission power control signal corresponding thereto; And

A digital gain attenuator configured to receive a gain transmission power control signal from the gain control circuit and simultaneously receive a 1 FA digital IF signal from the channel card to compensate for the transmission power of the 1FA digital IF signal and output the result to the RF block. It is characterized by.

In addition, in order to achieve the above object, the present invention provides a method for controlling a base station transmit power, comprising: a first step of a central processing unit setting a gain to 0 dB as a power control initial state, and initializing a transmit power state;

A second step of the central processing unit receiving a transmission power value from an RF block and comparing the transmission power value with a threshold to determine whether there is a request for control of transmission power;

A third step of, if there is no control request in the transmission power in the second step, proceeds to the second step again, and, if there is a control request in the transmission power, the central processing unit transmits a transmission power control signal to a gain control circuit;

A fourth step of, after the gain control circuit receives the transmission power control signal from the central processing unit, transmits a gain signal corresponding to a change amount of the transmission power with respect to the transmission power control signal to the digital gain attenuation unit; And

And a fifth step in which the digital gain attenuator receives the gain signal from the gain control circuit and compensates the gain value in a predetermined unit for the gain signal and transmits the gain value to the RF block.

1 is a functional block diagram showing an internal configuration of a base station transmission power control apparatus according to an embodiment of the present invention;

2 is a functional block diagram showing in detail the configuration of the digital gain attenuator in the base station transmission power control apparatus according to FIG.

3 is an operation flowchart illustrating an operation process of a base station transmission power control method according to an embodiment of the present invention.

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

100: central processing unit 200: gain control circuit

300: digital gain attenuation unit 310: gain adjuster

320: gain compensator

Hereinafter, a base station transmission power control apparatus and method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram showing a base station transmit power control apparatus according to an embodiment of the present invention, the base station transmit power control apparatus according to an embodiment of the present invention is a central processing unit 100, a gain control circuit 200 , And the digital gain attenuation unit 300.

First, the CPU 100 outputs a transmission power control signal to the gain control circuit 200 after receiving the transmission power default value from the first operator, and receives the transmission power value from the RF block, and then transmits the transmission power control signal. The power value is determined and the transmission power control signal is output to the gain control circuit 200. At this time, the central processing unit 100 receives the transmission power value fed back from the RF block after receiving the transmission power default value from the first operator, and the operator arbitrarily transmits the transmission power value to the central processing unit. Input of the transmit power change value is also possible.

In addition, the gain control circuit 200 receives a transmission power control signal from the CPU 100 and outputs a gain control signal corresponding thereto.

The digital gain attenuation unit 300 receives a gain control signal from the gain control circuit 200 and simultaneously receives a 1 FA digital IF signal from a channel card to compensate for the transmission power of the 1 FA digital IF signal. It serves to output to the RF block, and is composed of a gain adjuster 310, and a gain compensator 320 as shown in FIG.

First, the gain adjuster 310 receives a gain control signal from the gain control circuit 200 and then outputs a gain value. In this case, the gain adjuster 310 may be adjusted in units of 0.5 dB and may be less than or equal to the setting according to the setting.

In addition, when the gain compensator 320 receives the gain value from the gain adjuster 310, the gain compensator 320 compensates for and transmits the transmission power as much as the gain value.

Next, an operation process of the base station transmission power control method having the above configuration will be described with reference to FIG. 3.

First, the central processing unit 100 sets the gain to 0 dB as the power control initial state, and initializes the transmission power state (S1).

Then, the CPU 100 determines whether there is a request for controlling the transmission power after receiving the transmission power value from the RF block (S2).

Subsequently, if there is no control request in the transmission power in the second step S2 (NO), the process proceeds to the second step S2 again, while if there is a control request in the transmission power (YES), the central processing unit 100 ) Transmits a transmission power control signal to the gain control circuit 200 (S3).

Then, the gain control circuit 200 receives the transmission power control signal from the central processing unit 100 and transmits a gain signal corresponding to the change amount of the transmission power of the transmission power control signal to the digital gain attenuation unit 300. (S4).

Subsequently, the digital gain attenuator 300 receives the gain control signal from the gain control circuit 200 and then compensates the gain value in a predetermined unit with respect to the gain control signal and transmits it to the RF block (S5).

As described above, according to the base station transmission power control apparatus and method according to the present invention, in the IMT-2000 mobile communication base station system, by adjusting or amplifying the cover signal and handoff of the base station by attenuating or amplifying the digital signal in the IF block. Can be further fine-tuned, which not only increases the reliability of the system but also has an excellent effect of improving the performance of the system.

Claims (3)

In the transmission power control apparatus in a base station consisting of a channel card for outputting a digital baseband signal, a base station IF block receiving a digital baseband signal and converting it into a 3FA analog IF signal and transmitting the RF signal to an RF block, The base station IF block outputs a transmission power control signal corresponding to the first reception of the transmission power default value from the operator, and then outputs the corresponding transmission power control signal when the transmission power value is received from the RF block. A central processing unit; A gain control circuit which receives a transmission power control signal from the central processing unit and outputs a gain control signal corresponding thereto; And And a digital gain attenuator configured to receive a gain control signal from the gain control circuit and simultaneously receive a 1 FA digital IF signal from the channel card to compensate for the transmission power of the 1FA digital IF signal and to output the RF block to the RF block. Base station transmission power control device. The method of claim 1, The digital gain attenuator may include: a gain adjuster configured to receive a gain control signal from the gain control circuit and output a corresponding gain value; And And a gain compensator configured to receive a gain value from the gain adjuster and simultaneously compensate and transmit a transmit power by a gain value of a 1 FA digital IF signal. A first step in which the central processing unit sets the gain to 0 dB as the power control initial state, while initializing the transmission power state; A second step of the central processing unit receiving a transmission power value from an RF block and comparing the transmission power value with a threshold to determine whether there is a request for control of transmission power; A third step of, if there is no control request in the transmission power in the second step, proceeds to the second step again, and, if there is a control request in the transmission power, the central processing unit transmits a transmission power control signal to a gain control circuit; A fourth step of, after the gain control circuit receives the transmission power control signal from the central processing unit, transmits a gain signal corresponding to a change amount of the transmission power with respect to the transmission power control signal to the digital gain attenuation unit; And And a fifth step of the digital gain attenuator receiving a gain signal from the gain control circuit and compensating for a gain value in a predetermined unit with respect to the gain signal and transmitting the gain value to the RF block.