CN207817194U - X-band low phase noise navigation frequency modulated continuous wave radar emission system - Google Patents

Abstract

The utility model X-band low phase noise navigation frequency modulated continuous wave radar emission system, is made of linear frequency modulation module, mixing type phase-locked loop module, high stable local oscillator module and double frequency power amplification module；Linear frequency modulation module contains the first oscillator, DDS, the first bandpass filter and microprocessor；Mixing type phase-locked loop module is sequentially connected and is formed by phase discriminator, loop filter, voltage controlled oscillator, frequency mixer and the second bandpass filter；High stable local oscillator module is made of the second oscillator and the connection of the first frequency multiplier, and the output end of the first frequency multiplier is connect with the frequency mixer of mixing type phase-locked loop module；Double frequency power amplification module is mainly sequentially connected by the second frequency multiplier, radio-frequency filter and power amplifier and is formed, the input terminal of second frequency multiplier is connect with another output end of the voltage controlled oscillator of mixing type phase-locked loop module, and power amplifier exports X-band linear FM signal.The advantages that the utility model tool improves phase noise performance and reduces cost.

Description

X-band low phase noise navigation frequency modulated continuous wave radar emission system

Technical field

The utility model belongs to pathfinder emission system technical field, connects more particularly, to X-band peculiar to vessel navigation frequency modulation Continuous wave radar emission system.

Background technology

Marine navigation radar is mainly used for the Detection And Tracking of naval target, and auxiliary ship station navigation collision prevention ensures navigation peace Entirely.

Traditional marine navigation radar is based on non-coherent pulse magnetron system, but is limited by its system itself, deposits In following limitation：1, magnetron generally requires 3 minutes preheating time, can not directly use；2, magnetron radar The limitation of the modulated pulse width of distance resolution, when remote, distance resolution is poor；3, due to magnetron missing pulse It influences, minimum range is restricted；4, magnetron needs high-voltage modulation, reduces the reliability of entire radar；5, magnetic control Pipe needs replacing after a period of use, increases the cost of maintenance.

With the development of science and technology, the solid-state pathfinder of linear frequency modulation technology has been used, its advantage is that using solid-state devices, Good reliability is not necessarily to preheating time, and range resolution is good, and minimum range is small, and transmission power is small, to the radiationless wound of human body Evil, it is cheap the advantages that, still, due to Modulation Continuous Wave Radar using solid-state oscillator generate transmitting linear frequency modulation Signal, final low frequency signal can directly be generated by emitting after signal is mixed with the echo-signal coherent received, and radar emission The phase noise of system then will have a direct impact on detectivity of the radar system to Small object, this is one and still unsolved asks Topic, is the research emphasis in this field and project urgently to be resolved hurrily so how to reduce the phase noise of entire emission system.

Utility model content

The purpose of this utility model is to overcome the X-band low phase noise navigation frequency modulated continuous wave radar hair of the prior art It penetrates phase noise existing for system and directly influences detectivity and expensive defect of the radar system to Small object, carry Design and manufacture cost can be reduced for one kind, optimizes the X-band low phase noise navigation frequency modulated continuous wave radar hair of noise coefficient Penetrate system.

The purpose of this utility model is achieved through the following technical solutions.

A kind of X-band low phase noise navigation frequency modulated continuous wave radar emission system, characterized in that system is mainly by linear FM module, mixing type phase-locked loop module, high stable local oscillator module and double frequency power amplification module composition；Linear frequency modulation module packet Include the first oscillator, DDS (direct digital synthesiser), the first bandpass filter and microprocessor, the input terminal connection first of DDS The output end of oscillator, DDS connects the first bandpass filter, and DDS is controlled by the microprocessor being connected electrically；Mixing type locking phase Ring moulds block is in turn connected into closed loop institute group by phase discriminator, loop filter, voltage controlled oscillator, frequency mixer and the second bandpass filter At phase discriminator is connect with the output end of the first bandpass filter of the linear frequency modulation module；High stable local oscillator module is by second Oscillator and the first frequency multiplier connection composition, the output end of the first frequency multiplier are connect with the frequency mixer of mixing type phase-locked loop module； Double frequency power amplification module is mainly sequentially connected by the second frequency multiplier, radio-frequency filter and power amplifier and is formed, the second frequency multiplication The input terminal of device is connect with another output end of the voltage controlled oscillator of mixing type phase-locked loop module, and power amplifier exports X-band Linear FM signal.

DDS, reference clock of first oscillator as DDS are outputed signal to by the first vibration source of linear frequency modulation module. DDS is controlled by microprocessor, can directly generate linear FM signal, modulation linearity degree is good, and phase noise is small；DDS is exported Linear FM signal through the first band-pass filter, then the linear FM signal enters the mirror of mixing type phase-locked loop module Frequency device and loop filter input voltage controlled oscillator again, and voltage controlled oscillator has two-way output, wherein being delivered to times of system all the way Feedback signal transmission is added to frequency mixer in frequency power amplifier module, another way；At the same time, by the second of high stable local oscillator module Relatively more low-frequency local oscillation signal occurs for oscillator, and mixing is input to after the first frequency multiplier frequency multiplication of high stable local oscillator module The frequency mixer of formula phase-locked loop module generates intermediate-freuqncy signal after being mixed with the another way signal for carrying out voltage controlled oscillator output, The intermediate-freuqncy signal likewise enters phase discriminator formation closed loop phase lock by being used as feedback signal after the second bandpass filter；Work as mixing type After phaselocked loop PGC demodulation, the feedback signal can be consistent with the phase of the output reference signal of linear frequency modulation module.It is mixed Frequency formula phase-locked loop module output signal is transmitted to the second frequency multiplier of double frequency power amplification module, the second frequency multiplication by voltage controlled oscillator The signal of device output amplifies through power amplifier again after radio-frequency filter filters, final output X-band linear FM signal.

The technical essential of the utility model is to use to be operated in phaselocked loop more low-frequency than X-band (PLL) design, then make Some system complexities are slightly increased although doing so signal frequency conversion to X-band with frequency multiplication mode, the larger drop of energy Cost and the larger optimization noise coefficient of low system design and manufacture.

Preferred embodiment, the first oscillator use SAW oscillator, reference clock of first oscillator as DDS, Working frequency is in 868MHz；The Frequency Locking of mixing type phase-locked loop module is in 4.3GHz or so.

The design is designed using the mixing type phase-locked loop module of 4.3GHz or so, compared to X-band allocation in 8- 12GHz, the frequency are less than the frequency of X-band, you can, can be significantly using price more cheap voltage controlled oscillator and frequency mixer Save design and manufacture cost.The linear FM signal exported by mixing type phase-locked loop module, into double frequency power amplification module, warp After crossing frequency multiplication, X-band radio frequency is changed to.

The prior art be it is direct generate X-band, structure it is of high cost, be particularly due to make in phaselocked loop closed loop With N times of frequency divider, finally the phase noise of signal can be in the base of DDS reference signal phase noises in loop filter bandwidth Deteriorate 20log (N) dB on plinth, and the utility model avoids this deficiency.

Preferred embodiment, DDS select the AD9957 chips of ADI companies, in one 8 rank of AD9557 delivery outlets connection, passband Chebishev (Chebyshev) bandpass filter that 1dB ripples rise and fall.

One 8 rank of design, the Chebishev bandpass filters that 1dB text waves rise and fall in passband after AD9557 outputs, can be with Obtain the intermediate frequency (IF) Linear FM signal of high quality.

Preferred embodiment, phase discriminator use the ADF4002 chips of ADI companies, and ADF4002 is by a low noise digital phase demodulation Device, one accurately current pump, a programmable N times of frequency divider and one 14 reference counts form.

That voltage controlled oscillator is selected is the ROS_4725_119 of Mini Circuits companies, and function admirable, anharmonic wave is miscellaneous Scattered degree of suppression can reach 90dBc.

Preferred embodiment, loop filter use a 3 rank passive loop filters, loop filter bandwidth 15MHz.

The delivery outlet of preferred embodiment, voltage controlled oscillator is connected to one using the BFP640 triodes realization of company of Infineon Linear amplifier.

This is not only used to the output power of amplification voltage controlled oscillator, it is often more important that reduces the traction effect of voltage controlled oscillator It answers, improves the frequency stability of voltage controlled oscillator output.

Preferred embodiment, high stable local oscillator module design are the SAW oscillators based on a high stable, then again It is exported after 5 frequency multiplication of output frequency of oscillator, the signal of 5 frequency multiplication output and the signal of voltage controlled oscillator output are mixed in frequency mixer Generate intermediate frequency feedback signal after frequency, then intermediate frequency feedback signal by the second bandpass filtering after, inhibit fundamental wave and other be no Harmonic component only retains 5 order harmonic components.

SAW oscillator equally uses colpitts respective outer side edges surface acoustic wave resonance bodies to realize, in order to preferably carry The phase noise performance of high SAW oscillator, surface wave resonant body select the RO3164D-3 of RFM companies.

Preferred embodiment, the second frequency multiplier uses Infineon's BFP640 triodes, is biased in B classes amplification region, using putting Big device it is non-linear, the output frequency frequency multiplication of voltage controlled oscillator to X-band；It is connected with the Butterworth of 4 ranks in its output end Bandpass filter.

The utility model has the beneficial effects that：

1, the Fractional-N frequency device in the phaselocked loop closed loop of the prior art has been evaded, to improve the 20log of whole system (N) phase noise performance of dB；

2, using more low-frequency PLL designs are operated in, frequency multiplication mode is reused, the technology of signal frequency conversion to X-band Scheme reduces system design cost well；

3, avoid the prior art by voltage directly control X-band voltage controlled oscillator generate linear FM signal by The bad defect of the modulation linearity degree of the linear FM signal of generation, especially overcomes and is produced by DDS, frequency mixer and oscillator Phase noise and high-cost deficiency existing for raw X-band FM signal；

4, phase noise performance improves detectivity of the radar system to Small object；

5, one 8 rank of design, the Chebishev bandpass filters that 1dB ripples rise and fall in passband after AD9557 outputs, carry Degree of suppression anharmonic wave noise restraint outside high band can reach 90dBc.

6, the output end of voltage controlled oscillator is connected to one and is linearly put using what company of Infineon BFP640 triodes were realized Big device, this is not only used to the output power of amplification voltage controlled oscillator, it is often more important that the pulling effect for reducing voltage controlled oscillator carries The frequency stability of high voltage controlled oscillator output.

7, using a 3 rank passive loop filters, when overcoming the loop filter of low bandwidth reduces phase lock loop locks Between deficiency, loop filter bandwidth 15MHz.

Description of the drawings

Fig. 1 is a kind of structure block diagram of embodiment of the utility model；

Fig. 2 is the block diagram that prior art voltage control voltage controlled oscillator generates X-band FM signal；

Fig. 3 is that the prior art directly generates X-band FM signal block diagram by DDS, frequency mixer and oscillator；

Fig. 4 is that prior art one kind generating X-band FM signal block diagram by DDS and N times of phaselocked loop；

Fig. 5 is a kind of X-band low phase noise navigation frequency modulated continuous wave radar transmitting peculiar to vessel of embodiment of the utility model System emits the actual measurement schematic diagram of linear FM signal frequency.

In figure, linear frequency modulation module 1；First oscillator 11；DDS12；First bandpass filter 13；Microprocessor 14；It is mixed Frequency formula phase-locked loop module 2；Phase discriminator 21；Loop filter 22；Voltage controlled oscillator 23；Frequency mixer 24；Second bandpass filter 25； High stable local oscillator module 3；Second oscillator 31；First frequency multiplier 32；Double frequency power amplification module 4；Second frequency multiplier 41；Radio frequency Filter 42；Power amplifier 43.

Specific implementation mode

It elaborates below in conjunction with the accompanying drawings to the embodiments of the present invention：The present embodiment is with the utility model technology Implemented under premised on scheme, gives detailed embodiment and specific operating process, but the protection of the utility model Range is not limited to following embodiments.

Embodiment：The frequency modulated continuous wave radar emission system as shown in Figure 1, a kind of X-band low phase noise navigates, system master It to be made of linear frequency modulation module 1, mixing type phase-locked loop module 2, high stable local oscillator module 3 and double frequency power amplification module 4；Line Property FM module 1 include the first oscillator 11, the 12, first bandpass filters 13 of DDS (direct digital synthesiser) and microprocessor 14, DDS12 input terminal connects the first oscillator 11, and the output end of DDS12 connects the first bandpass filter 13, DDS12 by with Its microprocessor 14 being electrically connected controls；Mixing type phase-locked loop module 2 is by phase discriminator 21, loop filter 22, voltage controlled oscillator 23, frequency mixer 24 and the second bandpass filter 25 are in turn connected into closed loop and are formed, phase discriminator 21 and the linear frequency modulation module 1 The first bandpass filter 13 output end connection；High stable local oscillator module 3 is connected by the second oscillator 31 and the first frequency multiplier 32 Composition is connect, the output end of the first frequency multiplier 32 is connect with the frequency mixer 24 of mixing type phase-locked loop module 2；Double frequency power amplification module 4 are mainly sequentially connected and are formed by the second frequency multiplier 41, radio-frequency filter 42 and power amplifier 43, the input of the second frequency multiplier 41 End is connect with another output end of the voltage controlled oscillator 23 of mixing type phase-locked loop module 2, and it is linear that power amplifier 43 exports X-band FM signal.

In Linear Frequency Modulation module 1, since the phase noise of DDS12 reference clocks will have a direct impact on DDS12 generations The phase noise of frequency signal, so the first oscillator 11 in Linear Frequency Modulation module 1 is based on colpitts respective outer side edges sound Surface wave resonant body realizes that surface acoustic wave resonance body uses the RO3164D-3, resonant frequency 868.35MHz of RFM companies. First oscillator 11 generates clock reference of the stable 868.35MHz frequencies of oscillation as AD9957DDS12 chips.Microprocessor 14 use the STM32F103 of ST companies as micro-chip processor, pass through 14 digital control AD9957 of microprocessor and generate intermediate frequency line Property FM signal, particular by serial line interface control AD9957 chips CS, SCLK and SDI/O pin, generate 290MHz extremely The linear FM signal that 310MHz, i.e. intermediate frequency are 300MHz, bandwidth is 20MHz.Pass through the Chebishev first of 8 ranks again The bandwidth of bandpass filter 13, the first bandpass filter 13 is 20MHz, centre frequency 300MHz, is 1dB with interior rise and fall, this Sample has effectively filtered out band stray signal caused by DDS12 digital signal synthesis.Due to 8 rank Chebishev bandpass filterings Device uses lumped parameter design, and the decaying in entire band is larger, and 1 final output of linear frequency modulation module is to mixing type locking phase ring moulds ADF4002 phase discriminators 21 in block 2 have the input range of reference signal certain requirement, institute as signal, ADF4002 is referred to After 8 rank Chebishev bandpass filters, amplitude amplification has been carried out to generated linear FM signal.Here English is used The BFR193 wideband low noises triode of Fei Ling companies is as amplifier tube, using based on by two low noise triode BFR193 structures At Wall overflow circuit as low noise amplifier circuit, the input of amplifier in can be effectively reduced by overflowing circuit using Wall The Miller effect that capacitance dramatically increases improves the bandwidth of low-noise amplifier.

The technical solution of the utility model avoids the voltage controlled oscillator that X-band is directly controlled by voltage of the prior art Linear FM signal is generated and the bad defect of the modulation linearity degree of linear FM signal that generates, referring to Fig. 2, Fig. 3.

The technical solution of the utility model is also overcomed is deposited by DDS, frequency mixer and oscillator generation X-band FM signal Phase noise and high-cost deficiency, referring to Fig. 4.

Linear FM signal is after amplification, into the REFIN of the ADF4002 phase discriminators 21 of mixing type phase-locked loop module 2 Pin.Microprocessor 14 controls phase discriminator also by LE, CLK and DATA pin of serial line interface connection ADF4002 phase discriminators 21 21, setting loop divide N values are 1.The backfeed loop pin RFINA of ADF4002 phase discriminators 21, which is received, carrys out voltage controlled oscillator 23 With generated closed feedback loop signal after the signal mixing of high stable local oscillator module 3.Mixing type used by the design is locked Phase ring moulds block 2 eliminates N times of frequency divider of conventional phase locked loops on closed loop, is mixed using with another local oscillator F1 Mode the frequency of voltage controlled oscillator Fvco to IF signal frequency Fvco-F1, since frequency mixer 24 will produce Undesire frequency is spuious, so the signal after mixing carries out phase by entering back into phase discriminator 21 after second bandpass filter 25 again Bit comparison, after phase lock loop locks, the output frequency of the first oscillator 11 is Fvco=F1+Fref.The advantages of the design is, The output phase noise of Fvco will not be degraded 20log (N) dB.This also just effectively raises output phase noiseproof feature.

Phase discriminator 21 is using the ADF4002 chips of ADI companies in the design, and ADF4002 is by a low noise digital phase demodulation Device, one accurately current pump, a programmable N times of frequency divider and one 14 reference counts form.Voltage controlled oscillation That device 23 is selected is the ROS_4725_119 of Mini Circuits companies.Its function admirable, anharmonic wave noise restraint can reach 90dBc。

Most important design and the difficult point of design are loop filter 22, the property of loop filter 22 in PLL designs Can to the output frequency locking time of entire phaselocked loop, signal frequency is spuious, phase noise and stability have important influence.One The loop filter 22 of a low bandwidth can enhance spuious and phase noise performance, but can reduce phase lock loop locks when Between.A 3 rank passive loop filters are used in the design.Loop filter bandwidth is 15MHz.

Have after the output of voltage controlled oscillator 23 and is connected to one using the linear of company of Infineon BFP640 triodes realization Amplifier, this is not only used to the output power of amplification voltage controlled oscillator, while more importantly reducing leading for voltage controlled oscillator 23 Draw effect, improves the frequency stability that voltage controlled oscillator 23 exports.

It is generated after the frequency mixing that exported with voltage controlled oscillator 23 due to the signal of high stable local oscillator module 3 and enters phase demodulation The intermediate frequency feedback signal of device 21, so the phase noise performance of high stable local oscillator module 3 directly influences whether intermediate frequency feedback signal Phase noise performance design the surface acoustic wave based on a high stable using by high stable local oscillator module 3 for this defect Output frequency then being exported after 5 frequency multiplication of output frequency of the second oscillator 31, then is passed through the second bandpass filter by oscillator After 25, inhibit fundamental wave and other no harmonic components, only retain 5 order harmonic components, finally 5 order harmonic components is amplified defeated Go out, can so overcome the phase noise of high stable local oscillator module 3 to the phase noise performance shadow of the intermediate frequency feedback signal after mixing It rings.SAW oscillator equally uses colpitts respective outer side edges surface acoustic wave resonance bodies to realize, in order to better improve sound The phase noise performance of surface-wave oscillator, surface wave resonant body select the RO3164D-3 of RFM companies.This surface wave resonance The working frequency of body be 868.35MHz, unloaded quality factor be 24000,50 ohm have load quality factor be 4000, frequency temperature Coefficient is only 0.032ppm/ degrees Celsius.5 frequency multipliers use the MGA86563 Low-noise GaAs mmic amplifiers of Agilent companies It realizes, the working frequency of MGA86563 can work is biased in B classes amplification region to 6GHz, MGA86563, utilizes MGA86563 It is non-linear, generate 5 order harmonic components, after being filtered by the second bandpass filter 25, recycle Infineon company BFP640 tri- 868.35MHz is passed through 5 times by pole pipe (BFP640 is biased in A classes linear amplification region), 5 subfrequency component of Linear Amplifer The signal of 4.341GHz is generated after frequency.

Double frequency power amplification module 4 is mainly by the second frequency multiplier 41, micro-strip band logical (radio frequency) filter 42 and power amplification Device 43 forms.Second frequency multiplier 41 is biased in B classes amplification region, is utilized amplifier using Infineon's BFP640 triodes Non-linear, the output frequency frequency multiplication of voltage controlled oscillator 23 to X-band, i.e., centre frequency is 9.282GHz, bandwidth is 40MHz's Linear FM signal.Since the second frequency multiplier can introduce other harmonic components, so the Bart for devising 4 ranks in its output is fertile This bandpass filter, Butterworth filter inband flatness is good, in this way will not be to the power of the linear FM signal after frequency multiplication Amplitude has an impact, and due to being operated in X-band, microstrip line is used to realize the design of entire filter here.The Butterworth of 4 ranks The bandwidth of bandpass filter is 1.5GHz, insertion loss 0.5dB.After signal is by radio-frequency filter 42, ingoing power amplification Circuit.In order to save design cost, simultaneously expensive single-chip X-band power amplifier chip is not used in the design, but uses string Connection and the mode in parallel combined, design entire power amplification circuit.Power amplifier is by 2 grades of series connection amplification driving circuits and 1 grade Amplifying circuit composition in parallel.The 1st grade of amplifying circuit designed by BFP64 triodes by use of series connection amplification driving circuit, the 2nd Grade is by using the amplifying circuit designed by NLB-400 chips, and then signal is divided into two-way by micro-strip power distributing circuit, respectively Power amplification is carried out again, the power that 2 road signals after power distribution are designed each by NLB-400 chips and BFP650 triodes Amplifying circuit series connection amplification, after the signal that two-way amplifies again further filters signal by a radio-frequency filter 43, through micro- Band power synthesis circuit carries out power combing and is exported by SMA interfaces.The gain of entire power amplifier is 21dB, final defeated The peak power for going out signal is 20dBm.

X-band low phase noise navigation frequency modulated continuous wave radar emission system peculiar to vessel is equipped with two pieces of power modules, power supply mould Block provides required operating voltage and electric current to modules.Linear frequency modulation module 1 passes through SMA cable connections to mixing type locking phase Ring moulds block 2, high stable local oscillator module 3 are connected to 2 left side of mixing type phase-locked loop module, mixing type locking phase also by SMA connectors The output of ring moulds block 2 is connected to double frequency power amplification module 4 by SMA connectors again, and last RF linear FM signal passes through Delivery outlet exports.

Fig. 5 is actually to measure the navigation frequency modulated continuous wave radar emission system transmitting peculiar to vessel of obtained X-band low phase noise Linear FM signal frequency diagram.As seen from the figure, the center frequency point of FM signal is 9.28GHz, bandwidth 40MHz, defeated It is 19.24dBm to go out power.According to measurement, when output signal is 9.28GHz, phase noise when frequency deviation 1kHz is only- 115dBc/Hz.The performance of this phase noise is fine, is entirely capable of meeting navigation frequency modulated continuous wave radar peculiar to vessel to phase noise Demand.

A kind of X-band low phase noise navigation frequency modulated continuous wave radar emission system of the utility model, has and improves entirely The advantages that phase noise performance and reduction system design cost of system.It should be understood by those skilled in the art that this practicality is new Type is not restricted to the described embodiments, and the description of the embodiments and the specification only illustrate the principle of the present utility model, Under the premise of not departing from the spirit and scope of the utility model, the utility model also has various changes and improvements, these variation and Improvement is both fallen in claimed the scope of the utility model.The utility model requires protection scope is by appended claims And its equivalent thereof.

Claims (8)

1. The frequency modulated continuous wave radar emission system 1. a kind of X-band low phase noise navigates, characterized in that system is mainly by linearly adjusting Frequency module, mixing type phase-locked loop module, high stable local oscillator module and double frequency power amplification module composition；Linear frequency modulation module includes The input terminal connection first of first oscillator, DDS (direct digital synthesiser), the first bandpass filter and microprocessor, DDS is shaken Device is swung, the output end of DDS connects the first bandpass filter, and DDS is controlled by the microprocessor being connected electrically；Mixing type phaselocked loop Module is in turn connected into closed loop institute group by phase discriminator, loop filter, voltage controlled oscillator, frequency mixer and the second bandpass filter At phase discriminator is connect with the output end of the first bandpass filter of the linear frequency modulation module；High stable local oscillator module is by second Oscillator and the first frequency multiplier connection composition, the output end of the first frequency multiplier are connect with the frequency mixer of mixing type phase-locked loop module； Double frequency power amplification module is mainly sequentially connected by the second frequency multiplier, radio-frequency filter and power amplifier and is formed, the second frequency multiplication The input terminal of device is connect with another output end of the voltage controlled oscillator of mixing type phase-locked loop module, and power amplifier exports X-band Linear FM signal.
2. The frequency modulated continuous wave radar emission system 2. X-band low phase noise according to claim 1 navigates, characterized in that First oscillator uses SAW oscillator, and reference clock of first oscillator as DDS, working frequency is in 868MHz； The Frequency Locking of mixing type phase-locked loop module is in 4.3GHz or so.
3. The frequency modulated continuous wave radar emission system 3. X-band low phase noise according to claim 2 navigates, characterized in that DDS selects the AD9957 chips of ADI companies, and 1dB ripples rise and fall in one 8 rank of AD9557 delivery outlets connection, passband Chebishev (Chebyshev) bandpass filter.
4. The frequency modulated continuous wave radar emission system 4. X-band low phase noise according to claim 1,2 or 3 navigates, it is special Sign is that phase discriminator uses the ADF4002 chips of ADI companies, and ADF4002 is by a low noise digital phase discriminator, and one accurately Current pump, a programmable N times of frequency divider and one 14 reference counts composition.
5. The frequency modulated continuous wave radar emission system 5. X-band low phase noise according to claim 4 navigates, characterized in that Loop filter uses a 3 rank passive loop filters, loop filter bandwidth 15MHz.
6. The frequency modulated continuous wave radar emission system 6. X-band low phase noise according to claim 5 navigates, characterized in that The delivery outlet of voltage controlled oscillator is connected to a linear amplifier realized using company of Infineon BFP640 triodes.
7. The frequency modulated continuous wave radar emission system 7. X-band low phase noise according to claim 6 navigates, characterized in that High stable local oscillator module design is the SAW oscillator based on a high stable, then again the output frequency of oscillator 5 It is exported after frequency multiplication, the signal of 5 frequency multiplication output and the signal of voltage controlled oscillator output generate intermediate frequency feedback after frequency mixer mixing Signal, then intermediate frequency feedback signal by the second bandpass filtering after, inhibit fundamental wave and other no harmonic components, only retain 5 Order harmonic components.
8. The frequency modulated continuous wave radar emission system 8. X-band low phase noise according to claim 7 navigates, characterized in that Second frequency multiplier uses Infineon's BFP640 triodes, is biased in B classes amplification region, using amplifier nonlinearity, pressure The output frequency frequency multiplication of oscillator is controlled to X-band；It is connected with the Butterworth bandpass filter of 4 ranks in its output end.