CN201919158U - Multi-mode multi-band radio frequency onboard pico cellular communication system based on software radio - Google Patents

Abstract

The utility model discloses a multi-mode multi-band radio frequency onboard pico cellular communication system based on a software radio, comprising a receiving module, a local oscillator module, a transmission module and a control module. The system has the following beneficial effects: the radio frequency pico cellular communication system can support various work frequency bands and work modes as follows: 800-1000MHZ (GMSK (Guassian Minimum Shift Keying)/CDMA (Code Division Multiple Access) 1X), 2.412-2.472GHz and 5.0-5.8GHz (QPSK (Quadri Phase Shift Keying)/QAM (Quadrature Amplitude Modulation) 16/OFDM (Orthogonal Frequency Division Multiplexing)-QAM64), and the radio frequency pico cellular communication system can support various wireless network services as follows: GSM (935-960MHz/890-915MHz), CDMA (824-849MHz/869-894MHz), 802.11b/g (WLAN (Wireless Local Area Network) 2.412-2.472GHz) and 802.11a (WLAN 5.0-5.8GHz) communication systems when in the flying of airplanes or other special environments. The channel bandwidth of the system can change along with the difference of operation modes. The largest bandwidth can achieve 20MHz, the largest radio frequency output power is 20dBm, and the noise factor of a receiver is smaller than 9dB.

Description

Based on the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency of software radio

Technical field

The utility model relates to the airborne pico-cellular communication system of a kind of multi-mode multi-frequency band radio frequency based on software radio, belongs to a kind of technical field of the radio-frequency front-end subsystem applicable to existing radio communication service.

Background technology

Growing along with the continuous development of wireless communication technology and social demand, the radio communication that comprises mobile phone, radio call, satellite communication etc. have obtained popularizing and using more and more widely, and show vast market prospect.In the world, the annual increment of wireless communication user and speedup all increase substantially year by year continuing, and radio communication has entered the stage of large-scale development.Radio-frequency front-end system is the important component part in the radio communication receive-transmit system, and general action is for to downconvert to intermediate-freuqncy signal with the radiofrequency signal that receives, so that further handle and return signal; Perhaps with the intermediate-freuqncy signal up-conversion to the microwave and millimeter wave signal, so that it is at spatial transmission.

The operating frequency range of multiple now main wireless communication system has covered a plurality of frequency ranges from 400MHz to 6GHz.For realize can compatible various wireless communication system equipment, the multi-mode multi-band radio system is a critical component.In modern society, the service that wireless communication system is provided convenience, for example: cell mobile communication systems (CDMA, GSM, WCDMA, TD-SCDMA), wireless lan (wlan), short range communication systems (bluetooth, UWB), aboard, when using the airborne wireless communication service, may use many different systems simultaneously.

Defective and deficiency that prior art exists: well-known, many civil radio communication equipments must be in off-mode aboard, because the navigation system frequency range of its many working frequency range and aircraft is overlapping, the use so these communication equipments are under an embargo is in order to avoid exert an influence to the flight of aircraft.But outside the navigation frequency range of aircraft, also have very wide frequency range can be used as broadband connections and use.If therefore can make full use of these frequency ranges, good data are provided easily, the transmission service of Voice ﹠ Video, airborne wireless communication will be very attractive so.And existing radio system this special operational environment when still not being applied to aircraft navigation.

Summary of the invention

The utility model purpose is to provide a kind of multi-mode multi-frequency band radio frequency based on software radio airborne pico-cellular communication system at the defective that prior art exists.

The utility model adopts following technical scheme for achieving the above object:

The airborne pico-cellular communication system of a kind of multi-mode multi-frequency band radio frequency based on software radio comprises control system, GSM/CDMA subsystem and WLAN 2.4/5.0 subsystem;

Described GSM/CDMA subsystem:

Radiating portion---comprise the I/Q modulator, amplifier, controllable attenuator and the power amplifier that connect successively; Described I/Q modulator front end all has two operational amplifiers, and two operational amplifiers become two pairs of differential signals to the digital medium-frequency signal of two single-ended quadratures and drive the I/Q modulator;

Receiving unit---comprise the radio-frequency front-end, intermediate-frequency filter, middle frequency link and the frequency mixer that connect successively;

The local oscillator part---the modulator that being respectively the radio-frequency front-end of receiving unit provides the frequency mixer of first local oscillator, receiving unit that second local oscillator, radiating portion are provided provides the 3rd local oscillator;

Also be provided with two duplexers by selector switch between antenna and radiating portion, the receiving unit, two duplexers are distinguished corresponding GSM and CDMA passage; Also be provided with selector switch respectively between two duplexers and radiating portion, the receiving unit;

Described WLAN 2.4/5.0 subsystem:

Radiating portion---comprise the frequency mixer, intermediate-frequency filter, amplifier, controllable attenuator and the power amplifier that connect successively;

Receiving unit---comprise the intermediate-frequency filter, middle frequency link and the frequency mixer that connect successively;

Be provided with radio-frequency front-end between antenna and radiating portion and the receiving unit, radio-frequency front-end connects radiating portion and receiving unit respectively by selector switch;

The local oscillator part---for radio-frequency front-end provides first local oscillator, provides second local oscillator for radiating portion and the frequency mixer of accepting part;

Described control system:

Comprise single-chip microcomputer and CPLD; The single-chip microcomputer output frequency selects signal to give the local oscillator module of each subsystem, and export control signal and give CPLD, and then give each selector switch and each controllable attenuator of two subsystems by CPLD output control signal.

Communicating by letter between single-chip microcomputer and the CPLD finished by eight address wires.

In the receiving unit of described GSM/CDMA subsystem, middle frequency link is to be made of the third stage amplifier and the two-stage controllable gain amplifier that are provided with at interval in twos; The control signal of two controllable gain amplifiers of CPLD output.

In the receiving unit of described GSM/CDMA subsystem, the rear end of frequency mixer is connected with low pass filter.

In the receiving unit of described WLAN 2.4/5.0 subsystem, middle frequency link is to be made of the third stage amplifier and the two-stage controllable gain amplifier that are provided with at interval in twos; The control signal of two controllable gain amplifiers of CPLD output.

In the receiving unit of described WLAN 2.4/5.0 subsystem, the rear end of frequency mixer is connected with low pass filter.

At the deficiencies in the prior art technique effect of the present utility model and beneficial effect be:

The operating frequency range of multiple now main wireless communication system has covered a plurality of frequency ranges from 400MHz to 6GHz.For realize can compatible various wireless communication system equipment, the airborne pico-cellular communication system of multi-mode multi-band radio frequency is a critical component.This radio system can be supported various wireless communication services, as the GSM/CDMA mobile communication system, WLAN wireless local area network (WLAN) system or the like, working band is GSM (935～960MHz/890～915MHz), CDMA (824～849MHz/869～894MHz), 802.11b/g ((WLAN 5.0～5.8GHz) for WLAN2.412～2.472GHz) and 802.11a, channel width is variable according to different communication operation modes, support GMSK, CDMA2000, QPSK, QAM16/64, various modes such as OFDM-QAM64, maximum channel width can reach 20MHz.

Description of drawings

Fig. 1 is the systematic schematic diagram of the utility model embodiment.

Fig. 2 is the circuit theory diagrams of GSM/CDMA transmitter module.

Fig. 3 is the circuit theory diagrams of GSM/CDMA receiver module.

Fig. 4 is the circuit theory diagrams of WLAN2.4/5.0 transmitter module.

Fig. 5 is the circuit theory diagrams of WLAN2.4/5.0 receiver module.

Fig. 6 is the local oscillator part schematic diagram of CDMA/GSM system.

Fig. 7 is a WLAN2.4 local oscillator part schematic diagram.

Fig. 8 is a WLAN5.0 local oscillator part schematic diagram.

Embodiment

Be elaborated below in conjunction with the technical scheme of accompanying drawing to utility model:

As shown in Figure 1, the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio of this example comprises GSM/CDMA system module, wlan system module and control system, wherein

The GSM/CDMA system:

Receiver module is composed in series successively by switch, duplexer, radio-frequency front-end, low noise amplifier, intermediate-frequency filter, first variable gain amplifier, amplifier, second variable gain amplifier, frequency mixer and operational amplifier;

Two operational amplifier output terminals of input termination of modulator in the transmitter module, the output of modulator is connected in series amplifier, controllable attenuator, power amplifier successively, switch and duplexer.

Wlan system:

Receiver module is composed in series successively by radio-frequency filter, radio-frequency front-end, switch, low noise amplifier, intermediate-frequency filter, first variable gain amplifier, amplifier, second variable gain amplifier, frequency mixer;

The input termination digital intermediate frequency output of frequency mixer in the transmitter module, the output of frequency mixer is connected in series amplifier, controllable attenuator, power amplifier successively, switch and radio-frequency front-end.

Control system:

Control system is made up of single-chip microcomputer and CPLD.The single-chip microcomputer major function is that frequency is selected, and the CPLD major function is the selection of control of gain/power and switch.Communicating by letter between single-chip microcomputer and the CPLD finished by eight address wires.

Below each system is described one by one:

One, GSM/CDMA system module:

Because the particularity of native system is that working band is that 800MHz is to 6GHz, frequency band range is very wide, for the ease of adopting less size to realize, the complexity of reduction system, and satisfy the requirement of multimode multifrequency, the native system module transmits and receives part and has adopted digital intermediate frequency directly to be modulated to RF-wise and double conversion mode respectively.

Radiating portion:

The function of the quadrature modulator in the digital intermediate frequency reactance modulation system is that the I/Q digital medium-frequency signal is directly moved radio-frequency carrier signal.Its major technology index is: carrier suppressed, sideband suppress and IMD ₃Under actual conditions, because the imbalance of IC interior, the carrier suppressed of modulator and sideband suppression characteristic can be affected.

In order to satisfy the performance index of native system two-forty and wide working band, must select high performance I/Q modulator for use.The modulator that the utility model is selected for use is the TRF3703 of TI company, and this is a wideband orthogonal modulator, and its range of application is at 400MHz-4GHz, and good phase noise characteristic and amplitude balance characteristic are arranged.Therefore be highly suitable for digital intermediate frequency reactance modulation system circuit design.Four baseband signal inputs of TRF3703 (BBIP, BBIN, BBQP, and BBQN) must be driven by two pairs of differential signals could obtain better modulating performance.And the two-way i/q signal that obtains from base band is two single-ended signals, does not satisfy condition.For the signal input part that satisfies TRF3703 drives requirement, the utility model has selected for use a operational amplifier to finish this task, promptly uses two operational amplifiers that the digital medium-frequency signal of two single-ended quadratures is become two pairs of differential signals and drives TRF3703.Also can amplify base-band input signal simultaneously, reach better modulation effect with these two operational amplifiers.That the utility model is selected for use here is the AD8045 of AD company.AD8045 is a kind of amplifier that has single-ended input and differential mode output cheaply, and it has advantages such as low distortion, low-power consumption, phase equilibrium, and its available resistance comes ride gain.AD8045 has its unique internal feedback, can adjust output gain.When AD8045 was operated in 5MHz, Spurious Free Dynamic Range was-101dBc that when being operated in 10MHz, third order intermodulation is 43dBm.When AD8045 is the difference mode signal mode of operation, can be reference level, so be subjected to the influence of surface noise very little with the earth.

In order to reduce system bulk, and suppress image frequency better, according to the TRF3703 structure principle chart, it is identical that the utility model adopts 2 AD8045 to produce amplitude, and the digital medium-frequency signal of quadrature in phase (leading 90 ° of Q road) utilizes the TRF3703 chip, derive according to formula [1], adopt high local oscillator scheme, the design image-reject mixer, image frequency suppresses to reach-30dB.Insert the one-level low noise amplifier at the modulator output, what the utility model was selected for use is the promotion level of the MGA53543 of Avago company as power amplifier.MGA53543 is 17dB in the gain of 800-1000MHz, and input power 1dB compression point is 19.3dBm, is suitable as the promotion level of next stage power amplifier.In order to reach the dynamic range of 30dB, the utility model selects for use the PE4302 chip of Peregrine company as controllable attenuator.At PE4302 output access power amplifier.That the utility model is selected for use is the SPB2026Z of RFMD company, and this chip is a high linear, the AB class power amplifier of low-loss and high stability.Gain is 14.8dB in the GSM/CDMA working band, and the 1dB compression point is 33.6dBm, and IM3 is-46dBc.The utility model radiating portion does not have radio-frequency filter, and adopts duplexer as rf filtering, has reduced the volume of system greatly.

$\mathrm{LO}:{\cos w}_{\mathrm{LO}}t\→\left\{\begin{array}{c}\cos w_{\mathrm{LO}}t\\ \cos (W_{\mathrm{LO}}t-\mathrm{\π}/2\end{array}\right\}$

I：cosw _Bt

Q:sinw _BT ... formula 1

a：cosw _LOt×cosw _Bt＝cos(w _LO+w _B)t+cos(w _LO-w _B)t

b：cos(w _LOt-π/2)×sinw _Bt＝-cos(w _LO+w _B)t+cos(w _LO-w _B)t

a+b＝cos(w _LO-w _B)t

The circuit theory diagrams that whole transmitter module is realized are as shown in Figure 2:

Key performance by the test transmitting chip sends GMSK and CDMA20001X (9channel and the pilot modulation system) signal that code check is 200KHz/1.2288MHz with signal generator and tests.Through debugging, record the radiofrequency signal planisphere and the EVM of output port modulate emission in the whole working band, the EVM performance of CDMA and gsm system is better than 3% and 2% respectively, satisfies the base station system requirements.

Receiver module:

For the ease of adopting less size to realize, reduce the complexity of system, and satisfy the requirement of multimode multifrequency, in receiver module, adopted the double conversion demodulation mode.Radiofrequency signal at first is demodulated to 183.6MHz by general GSM/CDMA frequency range, and then moves to digital intermediate frequency 36MHz.

In order to satisfy the time-multiplexed performance index of native system dual system, must select high performance switch for use.The switch that the utility model is selected for use is the HMC536 of Hittite company, its range of application is at DC-6GHz, conversion loss is-0.5dB, switching time is less than 15ns, radiofrequency signal is selected laggardly to go into the radio frequency front-end chip signal is carried out gain compensation and frequency conversion for the first time through switch HMC536, the radio frequency front end chip that the utility model is selected for use is MAX2358, and it integrates LNA and low-converter function.MAX2358 can provide the gain of 25dB in the GSM/CDMA frequency range, the noise factor of 1.91dB, and its intermediate frequency is output as 183.6MHz.In order to eliminate the interference of image frequency signal, the utility model adopts the SAW (Surface Acoustic Wave) filter B5201 of EPCOS company, and its centre frequency is 183.6MHz, bandwidth 1.36MHz, and passband fluctuation 0.4dB, the insertion loss is 10dB.In order to compensate the loss of prime, the utility model is selected the amplifier SGA4563 of Stanford Microdevices company for use, and the gain of 28dB is provided in the GSM/CDMA frequency range.In frequency link forms by third stage amplifier and two-stage controllable gain amplifier, can provide-100dB arrives-dynamic range of 40dB.Its variable gain can be regulated control word according to system and user's demand and be realized by the control of the programmable logic device in the control system.Behind middle frequency link, in order to obtain digital intermediate frequency 36MHz, the utility model is selected the frequency mixer LT5517 of linear company for use, its provide 3dB conversion gain and-local oscillator of 80dBm-radio frequency reveals.The end of receiver module adopts lamped element filtering local oscillator to be leaked to the interference and the image frequency of intermediate frequency, and the circuit theory diagrams that whole receiver module is realized as shown in Figure 5.

By the key performance of test receiving chip, and demodulation module has been carried out trickle adjustment in conjunction with final EVM test.System adopts signal generator to produce 800MHz-1GHz during test,-100～-GMSK and the CDMA20001x signal of 40dBm test, record the baseband signal planisphere and the EVM of output port demodulate reception in the whole working band, the EVM performance of CDMA and gsm system is better than 4% and 2% respectively, satisfies the base station receiving system requirement.

The local oscillator module:

In the side circuit, owing to need provide local oscillation signal stable, low phase noise at 800MHz-1GHz, the phase-locked loop frequency synthesizer of monolithic can not satisfy above condition basically, so use the needed local oscillation signal of a plurality of incompatible generation of phase-locked loop frequency synthesizer chipset systems.The utility model is selected the Si4133 phase-locked loop frequency synthesizer chip and the incompatible generation local oscillation signal of a slice Si4136 phase-locked loop frequency synthesizer chipset of 2 Silicon Laboratories companies for use.

The concrete frequency synthesis scope of this two phase-locked loop frequency synthesizer chip is as follows: the Si4136 chip provides two radio frequency band: RF1:2.3GHz to 2.6GHz, RF2:2025MHz to 2300MHz and a medium-frequency band IF:62.5MHz to 1.0GHz.Wherein, RF1 and RF2 can only select one, but can work simultaneously with IF.The Si4133 chip provides two radio frequency band: RF1:900MHz to 1800MHz, RF2:750MHz to 1500MHz and a medium-frequency band IF:62.5MHz to 1.0GHz.Wherein, RF1 and RF2 can only select one equally, but also can work simultaneously with IF.This two phase-locked loop frequency synthesizer chip has the integrated level of height, comprise three complete PLL structures altogether, comprise VCO, loop filter, phase discriminator, to the R frequency divider able to programme of reference source signal, the Fractional-N frequency device able to programme of VCO output and the programmable frequency divider of IF signal output are completely integrated in chip internal, carry out PLL control by three string line interfaces.The local oscillator part schematic diagram of CDMA/GSM system as shown in Figure 6.

By to being used in combination of three phase-locked loop frequency synthesizers, can obtain required local oscillation signal.Table 1 has shown each phase-locked loop frequency-locking range distribution condition of three phase-locked loop frequency synthesizers:

Table 1 phase-locked loop frequency synthesizer frequency assignment chart:

Two, WLAN2.4/5.0 system module:

The working band of native system be 2412MHz to 2472MHz, 5000MHz is to 5800MHz, module transmits and receives part and adopts the double conversion mode.

Radiating portion:

The digital medium-frequency signal of 36MHz at first is modulated to 374MHz, and then moves to general WLAN2.4/5.0 frequency range.In order to satisfy the performance index of native system two-forty and wide working band, the utility model select for use on/low-converter is the ADEX-10H of Mini-Circuits company, this is a broadband converter, its range of application is at 10MHz-1GHz, and good local oscillator-radio frequency isolation characteristic and conversion loss flatness characteristic are arranged.Therefore be highly suitable for this circuit design.The local oscillator of ADEX-10H-radio frequency isolation degree can reach 55dB, has-conversion loss of 7dB and the fluctuation of the flatness of 0.35dB whole the application in the frequency band.Because the image frequency that frequency converter brings is disturbed, native system has adopted the SAW (Surface Acoustic Wave) filter B3677 of EPCOS company in order to suppress.This device has the insertion loss of 9dB, the bandwidth of 22MHz, and the inband flatness of 0.5dB and the band of 64dB suppress outward.Suppressed the image frequency interference well.In order to reach the dynamic range of 30dB, what the utility model was selected for use is the promotion level of the MGA53543/MGA52543 of Avago company as power amplifier.MGA53543/MGA52543 is respectively 18dB/16dB in the gain of 374MHz frequency range, and in order to reach the dynamic range of 30dB, the utility model selects for use the PE4302 chip of Peregrine company as controllable attenuator.Insert radio frequency front end chip at the PE4302 output.That the utility model is selected for use is the TRF2436 of TI company, and this device is a collection LNA, radio-frequency (RF) switch, on/low-converter and power amplifier be in the radio frequency front end chip of one.Emission is respectively 38dB and 20dB with the gain representative value of receiver module.The 1dB compression point is 22.5dBm.The circuit theory diagrams that whole transmitter module is realized are as shown in Figure 4:

By the key performance of test transmitting chip, sending code check with signal generator is that the OFDM-QAM64 signal of 20MBit is tested.Through debugging, record the radiofrequency signal planisphere and the EVM of output port modulate emission in the whole working band, the EVM performance of wlan system is better than 2%, satisfies the base station system requirement.

Receiver module:

Radiofrequency signal at first is demodulated to 374MHz by general WLAN2.4/5.0 frequency range, and then moves to digital intermediate frequency 36MHz.Radiofrequency signal is after radio frequency front end chip TRF2436 amplification and frequency conversion, in order to eliminate the interference of image frequency signal, still adopt the SAW (Surface Acoustic Wave) filter B3677 of EPCOS company, its centre frequency is 374MHz, bandwidth 22MHz, passband fluctuation 0.5dB is in order to compensate the loss of prime, the utility model is selected amplifier SGA4563 for use, and the gain of 27dB is provided in the 374MHz frequency range.In frequency link forms by third stage amplifier and two-stage controllable gain amplifier, can provide-90dB arrives-dynamic range of 30dB.Its variable gain can be regulated control word according to system and user's demand and be realized by the control of the programmable logic device in the control system.Behind middle frequency link, in order to obtain digital intermediate frequency 36MHz, the utility model is selected the frequency converter chip ADEX-10H identical with transmitter module for use, the end of receiver module adopts lamped element filtering local oscillator to be leaked to the interference and the image frequency of intermediate frequency, and the circuit theory diagrams that whole receiver module is realized as shown in Figure 9.

By the key performance of test receiving chip, and demodulation module has been carried out trickle adjustment in conjunction with final EVM test.System adopts signal generator to produce 2.4-2.5/5.0-5.8GHz during test,-90～-the OFDM-QAM64 signal of 30dBm tests, record the baseband signal planisphere and the EVM of output port demodulate reception in the whole working band, the EVM performance of wlan system is better than 2%, satisfies the base station system requirement.

The local oscillator module:

In the side circuit, owing to need provide local oscillation signal stable, low phase noise at WLAN2.4/5.0, the utility model selects for use the Si4133 phase-locked loop frequency synthesizer chip of 1 Silicon Laboratories company and frequency multiplier HMC188 combination and a slice Si4136 phase-locked loop frequency synthesizer chip of Hittite company to be respectively WLAN2.4/5.0 generation local oscillation signal.WLAN2.4 local oscillator schematic diagram as shown in Figure 7, WLAN5.0 local oscillator schematic diagram is as shown in Figure 8.

By to being used in combination of three phase-locked loop frequency synthesizers, can obtain required local oscillation signal.Table 2 has shown each phase-locked loop frequency-locking range distribution condition of three phase-locked loop frequency synthesizers:

Table 2 phase-locked loop frequency synthesizer Frequency Distribution

Three, control system:

The effect of control system is that control interface receives the control command that base band is sent, and control signal is sent to all subsystems (WLAN2.4G/WLAN5.8G/GSM-CDMA).For each subsystem, control command comprises

A. the switching controls of switch between different communication systems.

B. the control of dynamic range: transmitter module 30dB, receiver module 60dB.

C. automatic frequency is selected.

Base band control word form is as shown in table 2, table 2:

A1

A0

B0

C1

C0

D9

D8

D7

D6

D5

D4

D3

D2

D1

D0

X

The utility model is developed broadband multi-frequency multi-mode radio-frequency (RF) front-end circuit module, and 6 layers of PCB version of employing in kind are made.The size of circuit board is 170cm * 220cm ²Used instrument has in test process simultaneously:

1. vector signal generator: Agilent E4438C (PSG Vector Signal Generator).

2. spectrum analyzer: Agilent E4445A (PSA Series Spectrum Analyzer).

3. network analyzer: Agilent 5071B (S-parameter Network Analyzer).

4. oscilloscope: Agilent 54622D (Mixed Signal Oscilloscope).

5.PC.

Claims (5)

1. the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio is characterized in that comprising control system, GSM/CDMA subsystem and WLAN 2.4/5.0 subsystem;

Described GSM/CDMA subsystem:

Radiating portion---comprise the I/Q modulator, amplifier, controllable attenuator and the power amplifier that connect successively; Described I/Q modulator front end all has two operational amplifiers, and two operational amplifiers become two pairs of differential signals to the digital medium-frequency signal of two single-ended quadratures and drive the I/Q modulator;

Receiving unit---comprise the radio-frequency front-end, intermediate-frequency filter, middle frequency link and the frequency mixer that connect successively;

The local oscillator part---the modulator that being respectively the radio-frequency front-end of receiving unit provides the frequency mixer of first local oscillator, receiving unit that second local oscillator, radiating portion are provided provides the 3rd local oscillator;

Also be provided with two duplexers by selector switch between antenna and radiating portion, the receiving unit, two duplexers are distinguished corresponding GSM and CDMA passage; Also be provided with selector switch respectively between two duplexers and radiating portion, the receiving unit;

Described WLAN 2.4/5.0 subsystem:

Radiating portion---comprise the frequency mixer, intermediate-frequency filter, amplifier, controllable attenuator and the power amplifier that connect successively;

Receiving unit---comprise the intermediate-frequency filter, middle frequency link and the frequency mixer that connect successively;

Be provided with radio-frequency front-end between antenna and radiating portion and the receiving unit, radio-frequency front-end connects radiating portion and receiving unit respectively by selector switch;

The local oscillator part---for radio-frequency front-end provides first local oscillator, provides second local oscillator for radiating portion and the frequency mixer of accepting part;

Described control system:

Comprise single-chip microcomputer and CPLD; The single-chip microcomputer output frequency selects signal to give the local oscillator module of each subsystem, and export control signal and give CPLD, and then give each selector switch and each controllable attenuator of two subsystems by CPLD output control signal.

2. the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio according to claim 1, it is characterized in that in the receiving unit of described GSM/CDMA subsystem that middle frequency link is to be made of the third stage amplifier and the two-stage controllable gain amplifier that are provided with at interval in twos; The control signal of two controllable gain amplifiers of CPLD output.

3. the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio according to claim 1 is characterized in that in the receiving unit of described GSM/CDMA subsystem, the rear end of frequency mixer is connected with low pass filter.

4. the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio according to claim 1, it is characterized in that in the receiving unit of described WLAN 2.4/5.0 subsystem that middle frequency link is to be made of the third stage amplifier and the two-stage controllable gain amplifier that are provided with at interval in twos; The control signal of two controllable gain amplifiers of CPLD output.

5. the airborne pico-cellular communication system of the multi-mode multi-frequency band radio frequency based on software radio according to claim 1 is characterized in that the rear end of frequency mixer is connected with low pass filter in the receiving unit of described WLAN 2.4/5.0 subsystem.

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