KR20020093299A - Device for controling rf signal gain - Google Patents

Abstract

PURPOSE: A device for controlling an RF signal gain is provided to attenuate a gain of an RF signal by using a 6-bit digital attenuator only, and to transmit a serial-type control signal to each LPA(Linear Power Amplifier) through a single port by an RF signal controlling block, thereby monitoring and controlling states of the LPAs. CONSTITUTION: An RF signal controller(100) is connected by a single port, and transmits a serial-type control signal through the single port. When a digital attenuation value is inputted, an RF transmission signal processor(200) attenuates a gain value of a corresponding RF signal. When the digital attenuation value is inputted, an RF receiving signal processor(300) attenuates a gain value of a corresponding RF signal. Many LPA processors(400) are connected to the RF signal controller(100) through the single port. When the serial-type control signal is inputted from the RF signal controller(100), the LPA processors(400) control LPAs by corresponding to the serial-type control signal.

Description

RF signal gain control device {DEVICE FOR CONTROLING RF SIGNAL GAIN}

The present invention relates to a radio frequency (RF) signal gain control apparatus in a 3G 1X BS system, and more particularly, to an RF signal using a digital attenuator. The present invention relates to an RF signal gain control device for controlling a plurality of LPAs (Linear Power Amplifiers) by transmitting a control signal in serial form through a single port.

The third generation 1 sector base station system is a system design applying a wireless standard of CDMA2000 1X RTT (Radio Transmission Technology), and is designed to have a structure that can be changed to a system that meets the CDMA2000 1X RTT standard. In addition, the third generation 1 sector base station system has a general-purpose system structure that can accommodate asynchronous radio standards. In such a third generation 1 sector base station system, an RF Controller Card Assembly (RFCA) is responsible for control and status monitoring. In addition, in consideration of future expandability, it is designed to control and monitor up to 12FA (Frequency Area) / 6 sectors (SECTOR).

The board that is in charge of the control and status monitoring function of the RF block in the conventional third generation 1 sector base station system has a different configuration and function in the digital cellular system (DCS) and the personal communication service (PCS) system, respectively. The signal gain control apparatus includes an RFCA 10 having an output power detector 11, as shown in FIG. An RF transmit / receive signal processor 20 including a D / A (Digital / Analog) converter 21, an analog attenuator 22, and an EEP ROM (Electrically Erasable and Programmable ROM) 23; And a plurality of LPAs 30 respectively connected to the RFCA 10 through a parallel port. Referring to an operation process thereof, first, the RFCA 10 gains an RF signal from a base state management (BSM). Enter the attenuation value. Then, the RFCA 10 reads the voltage value corresponding to the gain attenuation value of the RF signal from the EEP ROM 23 in the RF transmission / reception signal processing unit 20. Subsequently, the RFCA 10 transmits the voltage value read from the EEP ROM 23 to the D / A converter 21. Then, the D / A converter 21 in the RF transmission / reception signal processing unit 20 converts the data value corresponding to the voltage value into analog and transmits it to the analog attenuator 22. Subsequently, the analog attenuator 22 in the RF transmission / reception signal processing unit 20 receives an analog data value from the D / A converter 21 and attenuates the gain of the corresponding RF signal and transmits it to the LPA 30. . At this time, the output power detector 11 in the RFCA 10 detects the gain of the RF signal transmitted from the analog attenuator 22 to the LPA 30. Thereafter, the RFCA 10 compares the gain value of the RF signal detected by the output power detector 11 and transmits the insufficient attenuation value to the BSM. Then, the BSM retransmits the gain attenuation value of the insufficient RF signal back to the RFCA 10 to compensate for the insufficient attenuation value and repeats the above operation to attenuate the gain of the corresponding RF signal. On the other hand, the LPA 30 is connected through the parallel port, respectively, and receives a control signal through the respective ports from the RFCA (10) to control.

However, the conventional RF signal gain control apparatus described above not only needs an auxiliary component to attenuate the RF signal using an analog attenuator, but also a plurality of LPAs are connected to the RFCA through a parallel port. As a result, the I / O port of the RFCA is also increased, resulting in a large system.

Another problem is that the analog attenuator can not only continuously detect the attenuated RF signal to more accurately attenuate the gain of the RF signal but also adjust the attenuation value of the analog attenuator through the data table value stored in the EEP ROM. It is very dependent on the system and the load on the system is also increased, thereby reducing the processing efficiency of the system.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to attenuate the gain of the RF signal by using only a 6-bit digital attenuator having good attenuation efficiency of the RF signal, and to reduce the RF signal. The controlling block transmits a serial control signal to each LPA through a single port to provide an RF signal gain control device capable of performing status monitoring and control functions of a plurality of LPAs.

In order to achieve the above object, the RF signal gain control apparatus of the present invention transmits a digital attenuation value, and transmits a control signal in serial form through a single port;

An RF transmission signal processor configured to attenuate a gain of an RF transmission signal corresponding to the digital attenuation value from the RF signal controller;

An RF received signal processor to attenuate a gain of an RF received signal corresponding to the digital attenuation value received from the RF signal controller; And

It is connected to the RF signal controller through a single port, when receiving a serial control signal from the RF signal controller, characterized in that it consists of a plurality of LPA processing unit for identifying the destination of the control signal and transmitting it to the internal block.

1 is a functional block diagram showing the configuration of a conventional RF signal gain control apparatus;

2 is a functional block diagram showing a configuration of an RF signal gain control apparatus according to an embodiment of the present invention;

3 is a functional block diagram showing the detailed configuration of the LPA processing unit of the internal configuration of the RF signal gain control apparatus according to FIG.

4 is a diagram showing the configuration of a control signal of the serial form of the RF signal gain control apparatus according to an embodiment of the present invention.

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

100: RF signal control unit 200: RF transmission signal processing unit

210: transmit 6-bit digital attenuator 300: RF received signal processing unit

310: receive 6-bit digital attenuator 400: multiple LPA processing unit

410: multiple LPA combiner 420: multiple LPA

Hereinafter, an RF signal gain control apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a functional block diagram of an RF signal gain control apparatus according to an embodiment of the present invention, the RF signal gain control apparatus according to an embodiment of the present invention RF signal control unit 100, RF transmission signal processing unit 200 , An RF received signal processor 300, and a plurality of LPA processors 400.

The RF signal controller 100 transmits the digital attenuation value (dB) to the RF transmission signal processing unit 200 and the RF reception signal processing unit 300, and is connected to the plurality of LPA processing units 400 through a single port. It transmits a control signal of the serial form to the plurality of LPA processing unit 400. At this time, the processor used in the RF signal controller 100 is MPC860, SMC 1 port is used as a port for debugging, SMC 2 and SCC 2, 3 port is a communication port for communicating with various lower blocks Used.

In addition, when the RF transmission signal processing unit 200 receives the digital attenuation value (dB) from the RF signal control unit 100, the RF transmission signal processing unit 200 serves to attenuate a gain value (dB) of the corresponding RF signal. An attenuator 210.

The 6-bit digital attenuator 210 in the RF transmission signal processor 200 attenuates the gain of the RF transmission signal by the digital attenuation value (dB) when the digital attenuation value (dB) is received from the RF signal controller 100. Play a role.

When the RF received signal processor 300 receives a digital attenuation value (dB) from the RF signal controller 100, the RF received signal processor 300 attenuates a gain value (dB) of a corresponding RF signal. An attenuator 310.

The received 6-bit digital attenuator 310 in the RF received signal processor 300 attenuates the gain of the RF received signal by the digital attenuation value (dB) when the digital attenuation value (dB) is received from the RF signal controller 100. Play a role.

In addition, the plurality of LPA processing unit 400 is connected to the RF signal control unit 100 through a single port, the serial control when receiving a serial control signal from the RF signal control unit 100 through a single port It serves to process according to the signal, and is composed of a plurality of LPA combiner 410, a plurality of LPA 420 as shown in FIG.

The plurality of LPA combiners 410 are connected to the RF signal controller 100 through a single port, and receive a serial control signal from the RF signal controller 100 to a destination of the serial control signal. It serves to transmit to the corresponding LPA (420).

In addition, the plurality of LPAs 420 receives a serial control signal from the LPA combiner 410 and controls a gain value of on / off, temperature, and transmit / receive RF signals of the corresponding LPA. . At this time, the serial control signal is configured as shown in FIG. On the other hand, the LPA 420 can be composed of six LPA 420 per sector, up to 36 through three sectors and two racks (Rack). That is, 36 LPAs 420 are possible through one single port.

Next, an operation process of the RF signal gain control apparatus having the above configuration will be described with reference to FIG. 2.

First, when a serial control signal is input to primarily control a gain of an RF signal to be transmitted from a BSM to a terminal, the RF signal controller 100 may provide a digital attenuation value (dB) to the RF transmission signal processor 200. To send.

Then, the RF transmission signal processor 200 receives the digital attenuation value from the RF signal controller 100 and attenuates the gain of the RF transmission signal by the digital attenuation value and transmits the digital attenuation value to the LPA 420. At this time, the RF transmission signal processing unit 200 directly attenuates the gain of the RF signal with the digital attenuation value through the transmission 6-bit digital attenuator 210.

Subsequently, when the LPA 420 receives a serial control signal from the RF signal controller 100 through the LPA combiner 410, the LPA 420 correspondingly turns on / off the temperature, temperature, After controlling the gain value of the transmitted / received RF signal, it transmits to the terminal and transmits to the BCP. At this time, the serial control signal transmitted through the LPA combiner 410 is an STX character that can know the starting point of the control signal, as shown in Figure 4, the address unit for knowing the destination of the control signal, It consists of a serial part consisting of the command part having the direct command of the control signal, the data part containing the data of the control signal, the checksum part for checking the error of the control signal, and the ETX character that means the end of the control signal. The LPA 420 responds only to the address value of the control signal, and transmits a response signal according to the request of the RF signal controller 100.

In addition, the digital attenuation value (dB) is received from the RF signal controller 100 which processes the gain of the received RF signal, and the gain attenuation of the RF received signal is performed.

Then, when the RF received signal processor 300 receives the digital attenuation value from the RF signal controller 100, the RF received signal processor 300 attenuates the gain of the corresponding RF received signal and transmits the result to the DUCA. In this case, the RF transmission signal processor 200 may conveniently attenuate the gain of the RF signal by directly attenuating the digital attenuation value input from the RF signal controller 100 through the reception 6-bit digital attenuator 310. have.

As described above, according to the RF signal gain control apparatus according to the present invention, the base station DCS and PCS system can be used in common, and the attenuation RF signal gain value of the attenuator is directly attenuated to the digital attenuation value (dB), thereby processing efficiency of the system. In addition to improving the performance of a number of LPAs, it is possible to reduce the number of I / O ports by performing status monitoring and control functions through serial communication.

Claims (4)

An RF signal controller which transmits a digital attenuation value and transmits a serial control signal through a single port; An RF transmission signal processor configured to attenuate a gain of an RF transmission signal corresponding to the digital attenuation value from the RF signal controller; An RF received signal processor to attenuate a gain of an RF received signal corresponding to the digital attenuation value received from the RF signal controller; And RF signal comprising a plurality of LPA processing unit connected to the RF signal control unit through a single port and receiving a serial control signal from the RF signal control unit to identify a destination of the control signal and transmit the same to an internal block. Gain control device. The method of claim 1, And the RF transmission signal processor comprises a transmission 6-bit digital attenuator for attenuating and outputting an RF transmission signal by a digital attenuation value when the digital attenuation value is input from the RF signal controller. The method of claim 1, The RF signal receiving control unit, the RF signal gain control device comprising a receiving 6-bit digital attenuator for attenuating and outputting the RF received signal by a digital attenuation value when receiving the digital attenuation value from the RF signal controller. The method of claim 1, The plurality of LPA processing unit, a plurality of LPA combiner which is connected to the RF signal control unit through a single port and receives the serial control signal from the RF signal control unit and transmits the serial control signal; And RF signal gain control device comprising a plurality of LPAs respectively receiving a control signal in the form of serial from the LPA combiner to control the gain value of the on / off, temperature, and transmit and receive RF signal of the corresponding LPA.