CN207010630U - A kind of Terahertz mixting circuit based on single slice integration technique - Google Patents

Abstract

A kind of Terahertz mixting circuit based on single slice integration technique, including radio frequency 3dB branch-waveguides directional coupler, 135 degree of phase shift 3dB branch-waveguides directional couplers of local oscillator, coaxial probe, Medium link ring, intermediate-freuqncy signal and two Terahertz sub-harmonic mixers, the Terahertz sub-harmonic mixer includes radio-frequency plumbing microstrip transition, single-chip integration Schottky diode to, local oscillator Waveguide-microbelt transition, intermediate-frequency filter and local oscillator low pass filter；Wherein, the single-chip integration Schottky diode is to the diode pair for reverse parallel connection.Harmonic mixer in the utility model Terahertz mixting circuit is obtained using semiconductor technology, accurately controls diode location and the size of microstrip circuit, and error is much smaller than manual assembly, greatly reduces influence of the rigging error to mixting circuit performance；Meanwhile the mixting circuit can effectively eliminate local oscillator noise, the noiseproof feature and efficiency of system are improved.

Description

A kind of Terahertz mixting circuit based on single slice integration technique

Technical field

It the utility model is related to a kind of Terahertz mixting circuit based on single slice integration technique.

Background technology

Terahertz (THz) ripple refers to electromagnetism of the frequency in the range of 0.1THz~10THz (wavelength is 0.03mm~3mm) Ripple.It is the important member in electromagnetic spectrum family, between infrared waves and microwave, long-wave band and millimeter wave submillimeter wave Coincide, short-wave band is coincided with infrared light, and its basic theory, biology barrier are also led with two microwave, light wave subjects Domain is mutually linked and compatibility, is the comprehensive branch of learning branch that last century Mo and the beginning of this century develop rapidly and formed. The unique electromagnetic spectrum position of THz wave causes it to have the characteristics that transient state, broadband property, coherence and low energy, in information The fields such as science, space science, medical science and material science have important researching value.

In information science field, the application of Terahertz Technology mainly has：(1) radar system；Due to the raising of frequency, terahertz Hereby radar be imaged and detect etc. all than the high resolution of traditional microwave radar, in early warning radar, GPR and meteorology All there is great application prospect on radar.(2) communication system；With the fast development of information science, Modern Communication System will Higher speed and stronger security performance are asked, and compared with microwave, THz wave wave beam is narrow, secondary lobe is low, can be with high band Width is oriented communication, has high researching value on LAN and intersatellite high-speed radiocommunication.(3) safety check system System；THz wave has high-penetration and low energy, and therefore, the safe examination system based on THz wave will not cause to damage to human body Wound, has higher use value than X ray safety check instrument.

Terahertz emission meter be Terahertz in one of important application of information science field, terahertz emission meter be measurement electricity The high sensitivity system of electromagnetic wave radiation, it is a kind of microwave remote sensing equipment of passive type, and itself does not launch electromagnetic wave, but logical Cross and passively receive the electromagnetic wave energy for being observed scene radiation to detect the characteristic of target.Frequency mixer is as radiometer front end system The important component of system, its performance directly affect the overall index of radiometer.The noise of terahertz emission meter front end mainly comes The diode in local oscillator driving source and frequency mixer is come from, wherein, amplify in the amplitude modulation(PAM) in local oscillation signal, or even local oscillator link It the thermal noise of device, can all be introduced in receiver system, deteriorate noise coefficient, cause system sensitivity to reduce.Suppress local oscillator The noise that link is introduced, can not only improve the noise temperature of receiver, can also improve total system sensitivity and dynamic model Enclose.But the scheme for the noise that local oscillator port introduces is not eliminated in current terahertz emission meter front end.On the other hand, Limitation of the existing receiver circuit due to being limited by processing conditions, in the case where there is multiple port input and output, more uses are more Level circuit configuration, needs multiple substrates and cavity in integrated circuit, and needs to connect waveguide or probe, and processed complex, cost is high, Transmission loss is big.In addition, core of the diode as frequency mixer nonlinear effect, its performance directly affects frequency mixer with assembling Performance, in low-frequency range process and assemble, circuit size is larger, frequently with " flip-chip " mode using conducting resinl by two poles Pipe is lost money instead of making money on circuit microstrip, and still, after Terahertz frequency range is risen to, the size of circuit strongly reduces, the side of manual assembly Formula can not ensure its degree of accuracy.

Utility model content

The defects of the utility model exists for background technology, it is proposed that a kind of Terahertz based on single slice integration technique mixes Frequency circuit.Harmonic mixer in the utility model Terahertz mixting circuit is obtained using semiconductor technology, accurately controls two Pole pipe position and the size of microstrip circuit, error are much smaller than manual assembly, greatly reduce rigging error to mixting circuit The influence of performance；Meanwhile the mixting circuit can effectively eliminate local oscillator noise, the noiseproof feature and efficiency of system are improved.

The technical solution of the utility model is as follows：

A kind of Terahertz mixting circuit based on single slice integration technique, including radio frequency 3dB branch-waveguides directional coupler 1, 135 degree of phase shift 3dB branch-waveguides directional couplers 5 of local oscillator, coaxial probe 8, Medium link ring 9, intermediate-freuqncy signal 10 and two are too Hertz sub-harmonic mixer 2, the Terahertz sub-harmonic mixer 2 include radio-frequency plumbing-microstrip transition 3, single-chip integration Xiao Te Based diode is to 4, local oscillator waveguide-microstrip transition 6, intermediate-frequency filter 7 and local oscillator low pass filter 11；Wherein, the monolithic collection It is the diode pair of reverse parallel connection to 4 into Schottky diode；

Radiofrequency signal is divided after radio frequency 3dB branch-waveguides directional coupler 1 is coupled into the signal that two-way phase differs 90 degree Jin Ru not two Terahertz sub-harmonic mixers 2；Oscillating driving signal is through 135 degree of phase shift 3dB branch-waveguide directional couples of local oscillator After device 5 is coupled into the signal that two-way phase differs 135 degree, two Terahertz sub-harmonic mixers 2 are respectively enterd；Terahertz point is humorous Single-chip integration Schottky diode in wave mixing device mixes to the radiofrequency signal and local oscillation signal progress Frequency mixing processing of 4 pairs of inputs After other components caused by frequency are filtered by intermediate-frequency filter, only intermediate frequency component exports via corresponding intermediate-frequency filter, enters Medium link ring 9, after 180 ° of phse conversions, export intermediate-freuqncy signal 10.

Further, the single-chip integration Schottky diode is straight in the GaAs substrates that thickness is 5 μm~15 μm to 4 To deliver a child, diode pad is connected with transmission line using the thin gold ribbon of beam lead formula, can greatly reduce rigging error, Lift circuit performance.

Further, the intermediate-frequency filter 7 is the high low-impedance line low pass filter of intermediate frequency, and its output end uses 50 ohm Micro-strip impedance line is realized, the characteristic that there is broadband to suppress parasitic passband, can effectively be prevented harmonic signal, local oscillation signal, be penetrated Frequency signal is exported and is reflected back towards by Mid Frequency, improves frequency multiplication and mixing efficiency.

Further, the local oscillator low pass filter 11 is the high low-impedance line low pass filter of intermediate frequency, and it is to make this that it, which is acted on, The signal that shakes reaches diode pair to drive its work with less loss, and suppresses radiofrequency signal, prevents radiofrequency signal from local oscillator Port leaks, and improves interport isolation.

Wherein, local oscillator and prevention at radio-frequency port through two Terahertz sub-harmonic mixers of radiofrequency signal and oscillating driving signal are defeated After entering, reverse parallel connection single-chip integration Schottky diode to 4 in carry out Frequency mixing processing；Wherein, the two of 135 degree of phase difference Road oscillating driving signal feed-in single-chip integration Schottky diode produces each harmonic component, its second harmonic component phase to 4 270 degree of difference, and two-way radiofrequency signal phase differs 90 degree, so, the second harmonic point of radiofrequency signal and oscillating driving signal Caused signal phase difference 180 degree after amount mixing.Other components are filtered by corresponding intermediate-frequency filter in signal caused by mixing After falling, only intermediate frequency component exports, into Medium link ring 9, the two-way intermediate-freuqncy signal phase difference 180 degree of output.Intermediate frequency coupling Cyclization 9 carries out 180 ° of phse conversions, and because noise is random distribution, carrying out phse conversion to noise does not have practical significance, And pass through frequency mixer and be mixed, after intermediate-frequency filter filtering, the noise that local oscillator introduces is amplified by power amplifier, is now made an uproar in new It is believed that the noise that local oscillator introduces is a small-signal under sound substrate, after being exported by 180 degree phse conversion, local oscillator noise is reverse It is suppressed, and two-way intermediate-freuqncy signal is superimposed output in the same direction, intermediate-freuqncy signal 10 of the final output Jing Guo noise suppressed, realizes suppression The purpose of local oscillator noise.

The beneficial effects of the utility model are：

1st, two single-chip integrations based on planer schottky diode pair are used in the utility model Terahertz mixting circuit Formula sub-harmonic mixer, parallel arrangement form mixting circuit, change two using 135 degree and 90 degree of branch line guide directional couplers The phase of road local oscillator and radiofrequency signal, local oscillator second harmonic component is set to have with caused two-way intermediate frequency after radiofrequency signal mixing The phase difference of 180 degree, into after Medium link ring, two-way intermediate-freuqncy signal is exported by being superimposed in the same direction after 180 degree phse conversion, and The two-way noise signal that local oscillator introduces reversely is offset, and realizes the purpose for eliminating local oscillator noise, and then improve the noise of system Performance and efficiency.

2nd, the Schottky diode in the utility model Terahertz mixting circuit using monolithic semiconductor integrated technology to being obtained Arrive, solve the problems, such as that the manual assembly degree of accuracy is low, the Schottky diode to be directly grown on GaAs substrates and with Microstrip line on GaAs substrates is joined directly together, while is generated beam lead on substrate and provided ground connection for diode and support whole Circuit monolithic.Schottky diode in the utility model Terahertz mixting circuit, can be accurate to being obtained by semiconductor technology Control diode location and the size of microstrip circuit, error to be much smaller than manual assembly, greatly reduce rigging error to mixed The influence of frequency circuit performance.

3rd, by two-way medium frequency output end mouth and it is arranged at another using coaxial probe in the utility model Terahertz mixting circuit One layer of Medium link ring connection, this structure cause the microstrip line construction of Medium link loop circuit and frequency mixer to build same In one cavity, the cumbersome of multiple circuit module connections is avoided, the space of inside modules is rationally make use of, reduces transition knot Structure, simplify circuit structure.

4th, sub-harmonic mixer is used in the utility model Terahertz mixting circuit, sub-harmonic mixer need to only receive radio frequency The local frequency of frequency half can be achieved mixing and receive, and greatly reduce the demand to Terahertz Solid Source, be advantageous to whole The miniaturization of receive-transmit system, the extensive use to Terahertz Technology have great importance.

Brief description of the drawings

Fig. 1 is that a kind of overall structure of the Terahertz mixting circuit based on single slice integration technique provided by the utility model is shown It is intended to；

Fig. 2 is the threedimensional model of the utility model single-chip integration Schottky diode pair；

Fig. 3 is the structural representation of the utility model Terahertz sub-harmonic mixer 2；

Fig. 4 is the structural representation of the utility model radio frequency 3dB branch-waveguide directional couplers；

Fig. 5 is the simulation result of the utility model radio frequency 3dB branch-waveguide directional couplers；

Fig. 6 is the structural representation of 135 degree of phase shift 3dB branch-waveguide directional couplers of the utility model local oscillator；

Fig. 7 is the structural representation of the utility model Medium link ring.

Embodiment

As shown in figure 1, it is a kind of the whole of Terahertz mixting circuit based on single slice integration technique provided by the utility model Body structural representation；Including 135 degree of radio frequency 3dB branch-waveguides directional coupler 1, local oscillator phase shift 3dB branch-waveguide directional couples Device 5, coaxial probe 8, Medium link ring 9, intermediate-freuqncy signal 10 and two Terahertz sub-harmonic mixers 2, the Terahertz point are humorous Wave mixing device 2 include radio-frequency plumbing-microstrip transition 3, single-chip integration Schottky diode to 4, local oscillator waveguide-microstrip transition 6, in Frequency wave filter 7 and local oscillator low pass filter 11；Wherein, the single-chip integration Schottky diode is two poles of reverse parallel connection to 4 Pipe pair；

Wherein, standard waveguide WR-2.8 is as rf inputs input radio frequency signal, and radiofrequency signal is from radio frequency 3dB branches ripple Lead directional coupler 1 to enter, standard waveguide WR-5.1 inputs local oscillation signal as local oscillator input, and local oscillation signal is from local oscillator 135 Degree phase shift 3dB branch-waveguides directional coupler 5 enters；Radiofrequency signal is coupled into two through radio frequency 3dB branch-waveguides directional coupler 1 After road phase differs 90 degree of signal, subtract height through waveguide and be coupled to microstrip line and respectively enter two Terahertz sub-harmonic mixers 2； Oscillating driving signal is coupled into the letter of 135 degree of two-way phase difference through 135 degree of phase shift 3dB branch-waveguides directional couplers 5 of local oscillator After number, subtract height through waveguide and be coupled to microstrip line and respectively enter two Terahertz sub-harmonic mixers 2；Terahertz sub-harmonic mixer In single-chip integration Schottky diode Frequency mixing processing is carried out to the radiofrequency signals and local oscillation signal of 4 pairs of inputs, caused by mixing After other components are filtered by intermediate-frequency filter, only intermediate frequency component exports via corresponding intermediate-frequency filter, into Medium link Ring 9, after 180 ° of phse conversions, export intermediate-freuqncy signal 10.

Wherein, local oscillator and prevention at radio-frequency port through two Terahertz sub-harmonic mixers of radiofrequency signal and oscillating driving signal are defeated After entering, reverse parallel connection single-chip integration Schottky diode to 4 in carry out Frequency mixing processing；Wherein, the two of 135 degree of phase difference Road oscillating driving signal feed-in single-chip integration Schottky diode produces each harmonic component, its second harmonic component phase to 4 270 degree of difference, and two-way radiofrequency signal phase differs 90 degree, so, the second harmonic point of radiofrequency signal and oscillating driving signal Caused signal phase difference 180 degree after amount mixing.Other components are filtered by corresponding intermediate-frequency filter in signal caused by mixing After falling, only intermediate frequency component exports, into Medium link ring 9, the two-way intermediate-freuqncy signal phase difference 180 degree of output.Intermediate frequency coupling Cyclization 9 carries out 180 ° of phse conversions, and because noise is random distribution, carrying out phse conversion to noise does not have practical significance, And pass through frequency mixer and be mixed, after intermediate-frequency filter filtering, the noise that local oscillator introduces is amplified by power amplifier, is now made an uproar in new It is believed that the noise that local oscillator introduces is a small-signal under sound substrate, after being exported by 180 degree phse conversion, local oscillator noise is reverse It is suppressed, and two-way intermediate-freuqncy signal is superimposed output in the same direction, intermediate-freuqncy signal 10 of the final output Jing Guo noise suppressed, realizes suppression The purpose of local oscillator noise.

Wherein, radio-frequency plumbing-microstrip transition 3 and local oscillator waveguide-microstrip transition 6 subtract high form using waveguide, can make Matching is better.

Wherein, standard waveguide WR-2.8 has the function that to suppress low frequency signal, therefore intermediate-freuqncy signal, local oscillation signal will not be from Radio-frequency head exports.

As shown in Fig. 2 the threedimensional model for the utility model single-chip integration Schottky diode pair；Diode is frequency mixer Core devices, its performance is directly connected to the height of conversion loss and the bandwidth of operation of frequency mixer.In Terahertz frequency range ripple Long very little, the package dimension of diode can cause very big influence to its performance, and should try one's best selection cascade resistance, junction capacity all compare Less diode, but as the rise of frequency is, it is necessary to reduce cascade resistance, junction capacity simultaneously, this is real in semiconductor technology Now there is larger difficulty.Single-chip integration Schottky diode pair in the utility model sub-harmonic mixer, it is by partly leading Two schottky junctions are integrated in an encapsulation by body technology, and form the structure of reverse parallel connection, farthest ensure that two The symmetry of pipe, reduce encapsulation parasitic parameter；Then the substrate of diode pair is removed and diode is directly generated on substrate Model, and be connected by gold ribbon with microstrip line, as shown in Figure 2.

As shown in figure 3, the structural representation for the utility model Terahertz sub-harmonic mixer 2；The Terahertz point is humorous Wave mixing device 2 include radio-frequency plumbing-microstrip transition 3, single-chip integration Schottky diode to 4, local oscillator waveguide-microstrip transition 6, in Frequency wave filter 7 and local oscillator low pass filter 11, wherein, the single-chip integration Schottky diode to 4 be reverse parallel connection two poles Pipe pair, to be monolithically integrated on GaAs substrate.

Wherein, the micro-strip of radio-frequency head and cavity wall contact, to realize the ground connection of radio frequency and direct current signal；Input waveguide to visit Field coupling in waveguide into micro-strip, is then utilized a quarter by the probe for being transitioning through one section coupling of pin Wavelength carries out impedance conversion to realize the impedance matching with standard microstrip transmission line.

Wherein, the intermediate-frequency filter 7 is the high low-impedance line low pass filter of intermediate frequency, its act on be will mixing caused by Frequency signal is extracted from circuit, and the signal of unwanted frequency, local oscillation signal mainly stronger to energy are suppressed, Prevent it from causing the loss of local oscillation signal energy and intermediate frequency output spectrum impure from intermediate frequency port output.Meanwhile intermediate frequency filtering Device also needs to reduce the insertion loss in passband as far as possible, intermediate-freuqncy signal is exported with less loss, and improve to local oscillator The suppression of frequency.

Wherein, the local oscillator low pass filter 11 is the high low-impedance line low pass filter of intermediate frequency, and its effect is to believe local oscillator Number diode pair is reached to drive its work with less loss, and suppress radiofrequency signal, prevent radiofrequency signal from local oscillator port Leakage, interport isolation is improved, while it also avoid radiofrequency signal and lost because of leakage, energy can be concentrated in diode pair On be mixed.

In the utility model, local oscillator low pass filter and mid-frequency low-pass wave filter use high low-impedance line LPF Device, the high low-impedance line low-pass filter structure of micro-strip is simple, easy to process, is used for suppressing to disturb frequently as frequency-selecting device in system Signal harmonic signal.

As shown in figure 4, the structural representation for the utility model radio frequency 3dB branch-waveguide directional couplers；The radio frequency point Branch guide directional coupler is formed based on standard waveguide WR-2.8, mainly by input (port 1), straight-through end (port 2), coupling (port 3) and four port compositions of isolation end (port 4) are held, wherein, isolation termination matched load, lead directly to end and coupled end conduct Output port, and 90 ° of phase difference be present in two-way output signal.The utility model radio frequency 3dB branch-waveguide directional couple utensils There is the features such as each port match, isolation are high, insertion loss is small, improve the deficiency of three port elements.Fig. 5 is the utility model The simulation result of radio frequency 3dB branch-waveguide directional couplers, by simulation result it can be seen that the radio-frequency branch guide directional couples Device return loss (S11) is better than 20dB, straight-through port and coupling port isolation in frequency range 150GHz~180GHz (S23) also superior to 20dB, while from S21 and S31 it is also seen that it has the superperformance of power decile.The utility model is penetrated The good transporting of frequency division branch guide directional coupler so that radiofrequency signal can be with less damage in wider frequency band range Consumption is loaded on two frequency mixers, to realize that low-loss mixting circuit has established good basis.

As shown in fig. 6, the structural representation for 135 degree of phase shift 3dB branch-waveguide directional couplers of the utility model local oscillator； The local oscillator branch-waveguide directional coupler is formed based on standard waveguide WR-5.1, mainly by input (port 1), straight-through end (end Mouthful 2), four ports compositions of coupled end (port 3) and isolation end (port 4), wherein, isolation termination matched load, lead directly to end With coupled end as output port, and there is 90 ° of phase difference in two-way output signal.Because the utility model Terahertz is mixed electricity Frequency mixer in road is sub-harmonic mixer, in order to ensure second harmonic and two-way intermediate-freuqncy signal phase phase after radiofrequency signal mixing Instead, in 45 degree of extra phase shift minor matters of straight-through end increase straight-through end 2 need to be made to be differed with coupled end 3 as 135 degree.

As shown in fig. 7, the structural representation for the utility model Medium link ring.The utility model uses and is based on microstrip line Classical mixed ring model, 2 ports connect matched load, and intermediate-freuqncy signal enters coupling loop circuit, 4 ends by port 1 and port 3 respectively Mouth output is the difference of two signals, i.e. signals reverse is superimposed.

RF Power Splitter uses orthogonal branches guide directional coupler structure in the utility model, passes through waveguide-micro-strip mistake Cross and be connected with sub-harmonic mixer prevention at radio-frequency port；Local oscillator power splitter uses 135 degree of branch-waveguide directional coupling structures, passes through Microstrip line is directly connected with the local oscillator port of sub-harmonic mixer.Two-way medium frequency output end mouth is by coaxial probe with being arranged at Another layer of Medium link ring is connected, and this structure causes the microstrip line construction of Medium link loop circuit and frequency mixer to build In same cavity, the cumbersome of multiple circuit module connections is avoided, the space of inside modules is rationally make use of, simplifies electricity Road, reduce the loss inside circuit.

Using two single-chip integration formulas point based on planer schottky diode in the utility model Terahertz mixting circuit Harmonic mixer, parallel arrangement form mixting circuit, and radiofrequency signal and oscillating driving signal are through two Terahertz subharmonic mixings Device local oscillator and prevention at radio-frequency port input after, reverse parallel connection single-chip integration Schottky diode to 4 in carry out Frequency mixing processing；Make an uproar Sound is random distribution, and carrying out phse conversion in mixting circuit to noise does not have a practical significance, and radiofrequency signal and local oscillation signal Because phase shift acts on, in the intermediate-freuqncy signal opposite in phase being mixed when exporting, and after the effect of intermediate-frequency filter, put by local oscillator Noise after big is regarded as a small-signal under new noise floor, and into after Medium link ring 9, two-way intermediate-freuqncy signal is led to Superposition output in the same direction after 180 degree phse conversion is crossed, and the two-way noise signal that local oscillator introduces reversely is offset, and realizes elimination local oscillator The purpose of noise, and then improve the noiseproof feature and efficiency of system.

Claims (3)

1. a kind of Terahertz mixting circuit based on single slice integration technique, including radio frequency 3dB branch-waveguides directional coupler (1), 135 degree of phase shift 3dB branch-waveguides directional couplers (5) of local oscillator, coaxial probe (8), Medium link ring (9), intermediate-freuqncy signal (10) With two Terahertz sub-harmonic mixers (2), the Terahertz sub-harmonic mixer (2) includes radio-frequency plumbing-microstrip transition (3), single-chip integration Schottky diode is to (4), local oscillator waveguide-microstrip transition (6), intermediate-frequency filter (7) and local oscillator low pass filtered Ripple device (11)；Wherein, diode pair of the single-chip integration Schottky diode to (4) for reverse parallel connection；

Radiofrequency signal is entered respectively after radio frequency 3dB branch-waveguide directional couplers are coupled into the signal that two-way phase differs 90 degree Enter two Terahertz sub-harmonic mixers；Oscillating driving signal is through 135 degree of phase shift 3dB branch-waveguides directional coupler couplings of local oscillator After 135 degree of signal is differed into two-way phase, two Terahertz sub-harmonic mixers are respectively enterd；Terahertz sub-harmonic mixer In single-chip integration Schottky diode carry out Frequency mixing processing to the radiofrequency signal to input and local oscillation signal, caused by mixing its After his component is filtered by intermediate-frequency filter, only intermediate frequency component exports via corresponding intermediate-frequency filter, into Medium link ring, After 180 ° of phse conversions, intermediate-freuqncy signal is exported.

2. the Terahertz mixting circuit according to claim 1 based on single slice integration technique, it is characterised in that the intermediate frequency Wave filter is the high low-impedance line low pass filter of intermediate frequency.

3. the Terahertz mixting circuit according to claim 1 based on single slice integration technique, it is characterised in that the local oscillator Low pass filter is the high low-impedance line low pass filter of intermediate frequency.