KR20020087748A - Transmitter for base station of a mobile phone - Google Patents

Abstract

PURPOSE: A transmitter of a cellular phone base station is provided to integrate a cellular phone base station composed of a control board, a transmission board and a transmission output detecting board into one board, and to implement the same functions, thereby reducing an error caused by an interface. CONSTITUTION: A transmission signal processor(50) inputs an IF signal, and converts the signal into a high frequency signal. A high power amplifier(60) inputs an output of the transmission signal processor(50), and amplifies the signal. A front end filter(61) inputs the output signal of the high power amplifier(60) to transmit the signal through an antenna(63), and couples the transmitted signal. A transmission signal detector(80) inputs the coupled signal, and detects a strength of the transmitted output signal. A transmission signal controller(70) inputs the output signal of the transmission signal detector(80), and controls a strength of the output signal of the transmission signal processor(50).

Description

Transmitter of cell phone base station {TRANSMITTER FOR BASE STATION OF A MOBILE PHONE}

The present invention relates to a transmitter of a mobile phone base station, and in particular, to implement the same function by integrating a mobile phone base station transmitter consisting of a control board, a transmission board, a transmission output detection board to a single board for the automatic gain control function of the transmitter interface It is about a transmitter of a cell phone base station which reduces the error caused by

1 is a transmitter of a conventional mobile phone base station, and as shown therein, a high frequency conversion board 10 for receiving an intermediate frequency signal and converting it into a high frequency signal, and receiving and amplifying the output signal of the high frequency conversion board 10 is input. A front end filter 23 for receiving a high output amplifier 22, an output signal of the high output amplifier 22, transmitting the signal through an antenna 24, and coupling the transmitted signal; A transmission output detection board 40 that detects the strength of an output signal transmitted by receiving the signal coupled from the filter 23, and the high frequency conversion board 10 receiving an output signal of the transmission output detection board 40. It consists of an output control board 30 for controlling the output signal.

The high frequency conversion board 10 receives the intermediate frequency signal through the input terminal 11 and the intermediate frequency transmission signal processor 12 for processing the intermediate frequency signal, and the bandpass signal output from the first frequency oscillator 13 A first frequency mixer 15 for mixing the signal passing through the filter 14 and the output signal of the intermediate frequency transmission signal processing unit 12 to convert the output signal of the intermediate frequency transmission signal processing unit 12 into a high frequency signal; The high frequency transmission signal processor 16 controls the gain by receiving the output signal of the first frequency mixer 15 and the output signal of the high frequency transmission signal processor 16 through the coupler 17. An isolator 18 for transmitting a signal only to the amplifier 22, an output signal detector 21 for receiving an output signal of the coupler 17 and detecting an output signal, and the input terminal 11; An input signal detector 19 for detecting an input signal by receiving an intermediate frequency signal through the input signal, and a gain control signal for receiving an output signal of the output signal detector 21 and an output signal of the input signal detector 19. The gain control circuit 20 outputs to the high frequency transmission signal processor 16 to control the intensity of the signal input to the coupler 17.

In addition, the transmission output detection board 40 mixes the output frequency signal of the second frequency generator 41 and the output signal of the high output amplifier 22 received through the front end filter 23 to the high output amplifier 22. The second frequency mixer 42 for converting the frequency of the signal output from the), the amplifier 43 for receiving and amplifying the output signal input of the second frequency mixer 42, and the surface acoustic wave filter 44 through the amplifier And a voltage control attenuator 45 for receiving the output signal of (43) and controlling the intensity of the signal, and an output detector 46 for detecting the output signal of the voltage control attenuator 45.

In addition, the output control board 30 is an analog / digital conversion unit 33 for receiving the output signal of the output detector 46 of the transmission output detection board 40 to convert into a digital signal, and the analog / digital conversion A control circuit 32 for generating a control signal for controlling the strength of the signal output from the antenna 24 by receiving the output signal of the unit 33 and an analog signal receiving the output signal of the control circuit 32. And a digital / analog converter 31 for converting the signal into a gain control circuit 20 of the high frequency conversion board 10 and outputting a control signal.

In addition, the board is composed of a high-frequency conversion board, a transmission output detection board, and an output control board, respectively.

In the transmitter of the conventional mobile phone base station configured as described above, the intermediate frequency signal input through the input terminal 11 of the high frequency conversion board 10 is amplified by the intermediate frequency transmission signal processor 12 and the first frequency oscillator 13. The high frequency signal generated by the PASS passes through only the frequency band required by the band pass filter 14. The first frequency mixer 15 which receives the output signal of the intermediate frequency transmission signal processor 12 and the band pass filter 14 mixes the two signals to convert the output signal of the intermediate frequency transmission signal processor 12 into a high frequency. Convert it to a signal. The high frequency transmission signal processor 16 receiving the output signal of the first frequency mixer 15 outputs a signal to the coupler 17 by controlling the strength of the received signal. The signal input to the coupler 17 is amplified by the high output amplifier 22 through the isolator 18 and then transmitted through the front end filter 23 to the antenna 24.

In addition, the intermediate frequency signal input through the input terminal 11 is the signal strength of the signal detected by the input signal detector 19, the output signal detector 21 receives the output signal from the coupler 17 is a high frequency conversion board The intensity of the output signal of (10) is detected.

In addition, the front end filter 23 mixes the signal input from the front end filter 23 to the transmission output detection board 40 and the output signal of the second frequency oscillator 41 in the second frequency mixer 42. The signal received from) is converted into an intermediate frequency signal. The output signal of the second frequency mixer 42 is amplified by the amplifier 43 and input to the voltage controlled attenuator 45 through the surface acoustic wave filter 44, and the output signal of the voltage controlled attenuator 45 is output detector. It is input to 46.

In addition, the output signal of the output detector 46 of the transmission output detection board 40 is input to the analog / digital converter 33 of the output control board 30 and converted into a digital signal, and the signal is converted into a control circuit 32. ) Is entered. The control circuit 32 senses the strength of the input signal and converts the control signal into an analog signal in the digital / analog converter 31 to output it to the gain control circuit 20 of the high frequency conversion board 10. The gain control circuit 20 controls the gain of the signal transmitted to the antenna 24 by controlling the gain of the high frequency transmission signal processor 16 according to the input control signal.

Therefore, in the related art, a transmitter of a mobile phone base station consisting of three boards including a high frequency conversion board, a transmission output detection board and an output control board is used.

However, in the conventional technology as described above, since three boards are operated by sharing their respective roles, errors due to interfaces occur between the boards, occupy a large amount of physical space, and many elements in the transmission output detection board. Error occurs due to the individual tolerances of the devices, and the trouble of having to inspect three boards in case of fault diagnosis.

Accordingly, the present invention in view of the above problems, the automatic gain control function conventionally implemented in three boards are implemented by integrating into a single board using a F PGE, the element of the transmission output detection board The purpose is to provide a transmitter of a mobile phone base station that can reduce the error by reducing the number.

1 is a block diagram showing the configuration of a transmitter of a conventional mobile phone base station.

Figure 2 is a block diagram showing the configuration of the transmitter of the mobile phone base station of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10: high frequency conversion board 11, 51: input terminal

12, 52: intermediate frequency transmission signal processing unit 13: the first frequency oscillator

14: band pass filter 15, 53: first frequency mixer

16, 54: high frequency transmission signal processing unit 17, 55: coupler

18, 56: isolator 19, 57: input signal detector

20, 58: gain control circuit 21, 59: output signal detector

22, 60: high power amplifier 23, 61: front end filter

24, 63: antenna 30: output control board

31, 74: digital / analog converter 32: control circuit

33, 78: analog / digital converter 40: transmission output detection board

50: transmission signal processing unit 70: transmission signal control unit

71: third bandpass filter 72: frequency oscillator

73: divider 75: processor

76: Romans 77: F-PJ

80: transmission signal detector 81: first band pass filter

82: second bandpass filter

The present invention for achieving the above object, the transmission signal processing unit for receiving an intermediate frequency signal and converting it into a high frequency signal, a high output amplifier for receiving and amplifying the output signal of the transmission signal processing unit, and the output signal of the high output amplifier A front end filter for receiving a signal, transmitting the signal through an antenna, and coupling the transmitted signal, a transmission signal detector for detecting the strength of an output signal transmitted by receiving the signal coupled from the front end filter; And a transmission signal controller configured to receive the output signal of the transmission signal detector and control the intensity of the output signal of the transmission signal processor.

Hereinafter, with reference to Figure 2 attached to the operation and effect of the transmitter of the mobile phone base station according to the present invention.

A transmission signal processor 50 for receiving an intermediate frequency signal and converting the signal into a high frequency signal, a high output amplifier 60 for receiving and amplifying the output signal of the transmission signal processor 50, and an output signal of the high output amplifier 60; Receives the signal and transmits the signal through the antenna 63 and couples the transmitted signal to the front end filter 61, and the output signal transmitted by receiving the signal coupled from the front end filter 61. And a transmission signal control unit 70 that receives the output signal of the transmission signal detection unit 80 and controls the intensity of the output signal of the transmission signal processing unit 50. .

The transmission signal processor 50 receives an intermediate frequency signal through the input terminal 51 and processes the intermediate frequency signal 52 to process the intermediate frequency signal, and converts the output signal of the intermediate frequency signal processor 52 into a high frequency signal. The first frequency mixer 53 for converting, the high frequency signal processor 54 for controlling the gain by receiving the output signal of the first frequency mixer 53, and the output signal of the high frequency signal processor 54 are couplers ( An isolator 56 which receives a signal through 55 and transmits a signal only in one direction, an output signal detector 59 which receives an output signal of the coupler 55 and detects an output signal, and the input terminal 51. An input signal detector 57 for detecting an intermediate frequency signal received through the input signal, an output signal of the output signal detector 59, and an output signal of the input signal detector 57; The gain control circuit 58 outputs to the high frequency signal processor 54 and controls the strength of the signal input to the coupler 55 at a constant level.

In addition, the transmission signal detector 80 receives the output signal of the front end filter 61 through the first band pass filter 81 and the second frequency mixer 82 for converting the frequency of the signal into an intermediate frequency; And a second band pass filter 83 which passes only a required frequency band among the output signals of the second frequency mixer 82.

In addition, the transmission signal control unit 70 receives an intermediate frequency signal of the transmission signal detection unit 80 and converts it into a digital signal and an analog / digital conversion unit 78 and the output of the analog / digital conversion unit 78 Field Programmable Logic Gate Array (FPGA) 77 which receives and buffers a signal, and performs a Fast Fourier Transform (FFT) on each value buffered by the FGE 77. A processor 75 for monitoring the intensity of the output signal transmitted to the antenna 63 by comparing the gain ratio corresponding to the output level with the reference gain ratio stored in the ROM 76, and outputting the output signal of the processor 75. A digital / analog converter 74 for receiving an input and converting the signal into an analog signal and outputting a control signal to the gain control circuit 58 of the transmission signal processor 50 and a control signal from the processor 75 to generate a frequency. Letting frequency The oscillator 72 and the output signal of the frequency oscillator 72 are input through the third band pass filter 71 and the signal is received by the first frequency mixer 53 of the transmission signal processing unit 50 and the transmission signal. The divider 73 outputs to the second frequency mixer 82 of the detector 80.

The transmission signal processing unit 50, the transmission signal control unit 70 and the transmission signal detection unit 80 is configured in one board, it will be described the operation of the mobile phone base station transmitter of the present invention configured as described above.

The intermediate frequency signal input through the input terminal 51 is amplified by the intermediate frequency signal processor 52 and input to the first frequency mixer 53, and received by the control signal of the processor 75 and generated by the frequency oscillator 72. The received high frequency signal passes through the third band pass filter 71 and the divider 73 and is input to the first frequency mixer 53. The first frequency mixer 53 converts the output signal of the intermediate frequency signal processor 52 into a high frequency signal and inputs the same to the high frequency signal processor 54. The high frequency signal processor 54 of the gain control circuit 58 The strength of the signal input by the control signal is controlled and the signal is output to the isolator 56 through the coupler 55. The output signal of the isolator 56 is amplified by the high output amplifier 60 and transmitted from the antenna 63 through the front end filter 61.

In addition, the output signal of the front end filter 61 is input to the second frequency mixer 82 through the first band pass filter 81 of the transmission signal detector 80, and inputs the control signal of the processor 75. The high frequency signal generated by the frequency oscillator 72 passes through the third band pass filter 71 and the divider 73 and is input to the second frequency mixer 82. The second frequency mixer 82 converts the output signal of the first band pass filter 81 into an intermediate frequency and becomes a digital signal in the analog / digital converter 78 through the second band pass filter 83. . The output signal of the analog-to-digital converter 78 is buffered in the Field Programmable Logic Gate Array (FPGA) and the processor 75 is for each value buffered in the FGE 77. Perform Fast Fourier Transform (FFT). The control signal is output to the gain control circuit 58 through the digital / analog converter 74 by comparing the gain ratio corresponding to the output level value of the FFT with the reference gain ratio stored in the ROM 76. The gain control circuit 58 receives control signals from the input signal detector 57, the output signal detector 59, and the digital / analog converter 74, respectively, and controls the strength of the signal of the high frequency signal processor 54. The strength of the signal transmitted to the antenna 63 is controlled.

As described in detail above, the present invention is implemented by integrating a transmitter of a mobile phone base station consisting of a conventional high frequency conversion board, an output control board, and a transmission output detection board into a single board, thereby reducing the overall size. Unlike this, the control circuit is configured in the same board to reduce the error caused by the interface, and many elements used in the conventional transmission output detection board implement the same function with three elements, and each tolerance caused by the elements It is possible to reduce the error and to make trouble diagnosis easier.

Claims (4)

A transmission signal processing unit for receiving an intermediate frequency signal and converting the signal into a high frequency signal, a high output amplifier for receiving and amplifying the output signal of the transmission signal processing unit, and receiving the output signal of the high output amplifier and transmitting the signal through an antenna A front end filter for coupling a transmitted signal, a transmission signal detector for detecting the strength of an output signal transmitted by receiving the signal coupled from the front end filter, and an output signal of the transmission signal detector; Cell phone base station transmitter comprising a transmission signal control unit for controlling the intensity of the output signal of the transmission signal processing unit. The mobile phone base station transmitter of claim 1, wherein the transmission signal processing unit, the transmission signal detection unit, and the transmission signal control unit are configured on one board. The transmission signal detector of claim 1, wherein the transmission signal detector receives the output signal of the front end filter through the first band pass filter and converts the frequency of the received signal into an intermediate frequency using a frequency generated by the transmission signal processor. And a second band pass filter for passing only a required frequency band among the output signals of the second frequency mixer. 2. The transmission signal control unit of claim 1, wherein the transmission signal control unit receives an input signal from the transmission signal detection unit and converts the signal into a digital signal; A processor which performs a FFT on each value buffered by FPI and compares a gain ratio corresponding to the detected output level value with a reference gain stored in the ROM and outputs a control signal to the transmission signal processor; A mobile phone comprising a frequency oscillator for receiving a control signal of a processor and generating a frequency and a splitter for receiving an output signal of the frequency oscillator through a band pass filter and outputting the signal to a transmission signal processor and a transmission signal detector Base station transmitter.