CN1808893A - Image suppression frequency mixer - Google Patents
Image suppression frequency mixer Download PDFInfo
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- CN1808893A CN1808893A CN 200510022225 CN200510022225A CN1808893A CN 1808893 A CN1808893 A CN 1808893A CN 200510022225 CN200510022225 CN 200510022225 CN 200510022225 A CN200510022225 A CN 200510022225A CN 1808893 A CN1808893 A CN 1808893A
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Abstract
This invention relates to microwave image rejection mixer integration technique, which comprises Equal phase power dividing circuit, two couple resonance wave mixer units, two middle frequency filter circuit, equal zero or ninety degrees power dividing circuit and ninety remove phase circuit and power integration circuit, wherein, the former four units are integrated into one chip; the said dividing circuit is of resistance matched T joint network; the said couple resonance mixer unit adopts capacity loading technique and two mixer tubes; the middle frequency filter circuit is of one section of lambda/2 circuit wire.
Description
Technical field
A kind of image frequency rejection mixer belongs to the electronic communication field, relates to a kind of microwave and millimeter wave image frequency rejection mixer integrated technology.
Background technology
Along with developing rapidly of short-wave communication tedhnology, people are also more and more higher to the requirement of communication apparatus.Volume is little, and is in light weight, the reliability height, and advantages such as good stability make microwave monolithic integrated circuit (MMIC) replace Wave guide system and hybrid integrated circuit gradually in the microwave communication field.Microwave monolithic integrated circuit is active device, passive device and microwave transmission line, interconnection line etc. all to be produced on a slice GaAs or the silicon chip and the integrated circuit that constitutes with semiconductor technology.
Frequency mixer is requisite parts in the superhet microwave integrated circuit receiving system.No matter be microwave communication, radar, remote control, remote sensing, or scout and electronic countermeasures, and many microwave measurement systems, all microwave signal must be dropped to medium and low frequency with frequency mixer and handle.So far nearly all having adopted integrated circuit mixer in the various microwave systems, mainly is because integrated form frequency mixer volume is little, stable and reliable for performance, the designing technique maturation, and also structure is versatile and flexible, can be fit to various special applications.
In any SSB superhet microwave system, the image frequency inhibition all is rather important and is the technical problem that must solve.At first be for fear of noise penalty, if carrying out image frequency, do not suppress by superheterodyne receiver, even low noise amplifier was arranged before frequency mixer, although and the noise factor of low noise amplifier is very low, the gain also very high, then system-wide noise will worsen 3dB; Next is to disturb for fear of image frequency, and near the high-frequency signal atmosphere, atmospheric electricity, the especially image frequency more constitutes a threat to wireless devices such as communication, radars.
In super-heterodyne system, suppress the image frequency interference and mainly contain two kinds of ways, the one, before frequency mixer, add the image frequency rejects trap, but only be applicable to the situation of high intermediate frequency.In the middle of when again and again rate is not really high, image frequency is frequently not far from one another with letter, at this moment, band pass filter (or band stop filter) is difficult to accomplish neither influence letter and keeps pouring in defeatedly, at image frequency very high inhibition degree is arranged again.Especially in the microwave equipment that signal frequency often changes, for example frequency-agile radar or some broadband microwave communication equipment, when signal frequency changed, image frequency exceeded the filter rejection band, and filter is just inoperative.Another kind of way adopts image frequency rejection mixer exactly, and its main feature is that the inhibitory action to image frequency is that can discern extraneous signal is useful signal or mirror signal automatically.That is to say that when local frequency and signal frequency change, repressed image frequency also changes automatically, plays the image frequency effect that suppresses.
Usually the circuit structure of image frequency rejection mixer employing as shown in Figure 1, comprise constant amplitude homophase merit parallel circuit 1, mixing unit 2, intermediate frequency filtering circuit 3,4,90 ° of phase-shift circuits 5 of 0 °/90 ° merit parallel circuits of constant amplitude, 6 six parts of power synthesis circuit, preceding four parts generally realize on chip.Its basic functional principle is: local oscillator (LO) signal constant amplitude in phase is assigned to two mixing unit; Radio frequency (RF) signal is divided into 0 °/90 ° two paths of signals of constant amplitude, is added to two mixing unit respectively; At the intermediate frequency mouth, adopt the intermediate frequency filtering circuit to leach intermediate-freuqncy signal; Utilize 90 ° of phase-shift circuits to 90 ° of one tunnel intermediate-freuqncy signal phase shifts wherein then, again the two-way intermediate-freuqncy signal is input to power synthesis circuit, because intermediate frequency (IF) the signal constant amplitude homophase that letter produces frequently, and the intermediate-freuqncy signal constant amplitude that image frequency produces is anti-phase, make power synthesis circuit output believe the IF signal (required IF signal) that produces frequently, and suppressed the IF signal that image frequency produces.This kind frequency mixer is very high to the symmetry requirement of circuit structure, and the imbalance of any amplitude and phase place all can cause the image frequency inhibition degree variation of frequency mixer.
Existing a kind of orthogonal mixer chip structure (is seen K.S.Ang as shown in Figure 2, M.Chongcheawchamnan, D.Kpogla, P.R.Young, I.D.Robertson, D.Kim, M.Ju, and H.Seo, " Monolithic Ka-bandeven-harmonic quadrature resistive mixer for direct conversion receivers; " in IEEERadio Frequency Integrated Circuits Symp.Dig., Phoenix, AZ, May 2001, pp.169-172.), unique difference of it and image frequency rejection mixer is that the two-way intermediate-freuqncy signal does not need synthetic output, so its circuit structure is identical with image frequency rejection mixer chip circuit structure partly.The low pass filter that comprise the even-order harmonic mixing unit 2 that adopts the Wilkinson electric bridge to form, adopts to form by series connection high impedance microstrip line and shunt capacitance as constant amplitude homophase merit parallel circuit 1, by Ma Kadebalun and two pHEMT pipes as intermediate frequency filtering circuit 3 and employing Lange electric bridge as 0 °/90 ° merit parallel circuits 4 of constant amplitude.The LO signal is assigned to two even-order harmonic mixing unit by Wilkinson electric bridge constant amplitude homophase; The RF signal is divided into 0 °/90 ° two paths of signals of constant amplitude by the Lange electric bridge, is added to two even-order harmonic mixing unit respectively; At the intermediate frequency mouth, adopt the low pass filter of forming by series connection high impedance microstrip line and shunt capacitance to leach intermediate-freuqncy signal for the intermediate frequency filtering circuit, realized quadrature demodulation.The mixing unit adopts resistive FET mixing, and the LO signal becomes the constant amplitude reverse signal through Ma Kadebalun, is added to two PHEMT tube grids respectively, and RF signal constant amplitude is with being added to the drain electrode of two PHEMT pipes, and this has just realized the even-order harmonic mixing.
Utilize this orthogonal mixer chip to add that 90 ° of phase-shift circuits, power synthesis circuit just can form a kind of image frequency rejection mixer.But the image frequency rejection mixer that utilizes this orthogonal mixer chip to make is bigger owing to the size of orthogonal mixer chip own, is unfavorable for the miniaturization (wherein, chip portion size minimum can only be accomplished 2.1*2.9) of whole image frequency rejection mixer; In addition, the performance of whole image frequency rejection mixer remains further to be improved (orthogonal mixer of reporting in the document adopts 2 subharmonic mixing).
Summary of the invention
The object of the present invention is to provide a kind of image frequency rejection mixer, compared with similar products, have equal good performance (image frequency inhibition degree, conversion loss), and realize the four-time harmonic mixing with smaller szie.
Detailed technology scheme of the present invention is:
A kind of image frequency rejection mixer, as shown in Figure 3, comprise six unit such as constant amplitude homophase merit parallel circuit 1, two even-order harmonic mixing unit 2, two intermediate frequency filtering circuit 3,4,90 ° of phase-shift circuits 5 of 0 °/90 ° merit parallel circuits of constant amplitude, power synthesis circuit 6, preceding four unit are integrated on the chip; The LO signal in phase is assigned to two even-order harmonic mixing unit 2 by constant amplitude homophase merit parallel circuit 1 constant amplitude; The RF signal is divided into 0 °/90 ° two paths of signals of constant amplitude by 0 °/90 ° merit parallel circuits 4 of constant amplitude, is added to two even-order harmonic mixing unit 2 respectively; At the intermediate frequency mouth, adopt intermediate frequency filtering circuit 3 to leach required intermediate-freuqncy signal; Utilize wherein 90 ° of one tunnel intermediate-freuqncy signal phase shifts of 5 pairs of 90 ° of phase-shift circuits then, again the two-way intermediate-freuqncy signal by power synthesis circuit 6 synthetic outputs, obtain the IF signal that letter produces frequently, thereby the IF signal that image frequency is produced suppresses;
It is characterized in that described constant amplitude homophase merit parallel circuit 1 is the T joint network of a simply input, output port impedance phase coupling;
Described even-order harmonic mixing unit 2 adopts resistive FET mixing, form by Ma Kadebalun and two mixer tubes of adopting the capacitive load technology, wherein, the Ma Kade barron structure of employing capacitive load technology as shown in Figure 5, its Coupled Line Length of Band shorten to loading capacitance not the Ma Kadebalun Coupled Line Length of Band 1/8th, the LO signal becomes the constant amplitude reverse signal through the Ma Kadebalun that adopts the capacitive load technology, be added to two mixer tube grids respectively, RF signal constant amplitude is with being added to two mixer tube drain electrodes, to realize the even-order harmonic mixing; Mixer tube can adopt enhancement mode pHEMT (or HEMT) pipe;
Described intermediate frequency filtering circuit 3 is one section λ/2 open-circuit lines, and the one end links to each other with two mixer tube drain electrodes, and the other end is unsettled, and the IF signal takes out from distance open circuit point λ/4, to realize the inhibition to the RF signal, prevents that simultaneously the RF signal from leaking from the intermediate frequency mouth.
Need to prove that the improvement technical characterictic of above-mentioned three aspects can adopt separately, also can comprehensively adopt, can realize the multiple image frequency rejection mixer of different demands.If being considered as two of even-order harmonic mixing unit, the Ma Kadebalun of the employing capacitive load technology in the even-order harmonic mixing unit 2 and the mixer tube that need not biasing circuit improve technical characterictics, then the improvement technical characterictic of above four aspects can adopt separately, also can comprehensively adopt.
Image frequency rejection mixer of the present invention, its essence are how to dwindle the size of this mixer chip part.The main improvement has four aspects: (1), design one simple T joint network are realized the power division of LO signal, compare with wilkinson electric bridge commonly used, can realize identical electric property, but dwindle area greatly; (2), Marchand Balun is improved design, it is the critical component in the image frequency rejection mixer chip, dwindle Marchand Balun size by the capacitive load technology, improve back Marchand Balun Coupled Line Length of Band and only be 1/8th of Marchand Balun Coupled Line Length of Band before improving, dwindle the area of Balun greatly, and then dwindled the area of image frequency rejection mixer chip part; (3), adopt without any need for the resistive mixing of the triode of biasing circuit, can further reduce circuit complexity, dwindle chip area.General triode mixing all needs to add direct current biasing, this can increase circuit complexity and chip area undoubtedly, in the present invention, adopt the resistive mixing of triode, need not be biased, adopt enhancement mode pHEMT (or HEMT) pipe simultaneously as mixer tube in drain electrode, under the situation that does not add gate bias, this pipe has been in cut-off state, meets the requirement of switch mixing, therefore also need not add gate bias; (4), the intermediate frequency filtering circuit adopts simple λ/2 open-circuit lines to realize filtering, need not shunt capacitance, simplified circuit to a certain extent more and dwindled the area of image frequency rejection mixer chip part.By above 4 improvement, the circuit size of whole image frequency rejection mixer dwindles greatly, has satisfied the requirement to circuit miniaturization of modern communications, radar system; Dwindling of circuit volume also reduced manufacturing cost simultaneously, for the cost that reduces machine systems such as communication, radar also highly significant.Table one has been listed the comparison of a kind of orthogonal mixer in the present invention and the prior art.As can be seen from the table, compare with external design, image frequency rejection mixer chip part area of the present invention has dwindled 56%, also increases on the performance simultaneously, has realized the four-time harmonic mixing.
| Reference | The mixing structure | The local oscillator harmonic number | Operating frequency (GHz) | Image frequency inhibition degree (dB) | Conversion loss (dB) | Size (mm 2) |
| Prior art | Resistive mixing | 2 | 30~40 | Unknown | About 14 ~ 24 | 2.1*2.9 |
| The present invention | Resistive mixing | 4 | 30~40 | 15~34 | 21~29.5 | 1.4*1.9 |
Description of drawings
Fig. 1 is the electrical block diagram of common image frequency rejection mixer, and wherein, 1 is constant amplitude homophase merit parallel circuit, and 2 is even-order harmonic mixing unit, and 3 is the intermediate frequency filtering circuit, and 4 is 0 °/90 ° merit parallel circuits of constant amplitude, and 5 is 90 ° of phase-shift circuits, and 6 is power synthesis circuit.
Fig. 2 is existing a kind of orthogonal mixer chip structure schematic diagram, wherein, 1 for adopting Wilkinson electric bridge constant amplitude homophase merit parallel circuit, 2 Wei You even-order harmonic mixing unit that Ma Kadebalun and two pHEMT pipe are formed, 3 for adopting the intermediate frequency filtering circuit of the low pass filter of being made up of series connection high impedance microstrip line and shunt capacitance, and 4 for adopting 0 °/90 ° merit parallel circuits of constant amplitude of Lange electric bridge.
Fig. 3 is the electrical block diagram of a kind of image frequency rejection mixer of the present invention, wherein, 1 for employing is imported, the constant amplitude homophase merit parallel circuit of the T joint network of output port impedance phase coupling, 2 is by improved Ma Kadebalun and two even-order harmonic mixing unit that mixer tube is formed, 3 for adopting the intermediate frequency filtering circuit of one section λ/2 open-circuit lines realization, 4 for adopting 0 °/90 ° merit parallel circuits of constant amplitude of Lange electric bridge, and 5 is 90 ° of phase-shift circuits, and 6 is power synthesis circuit.
Fig. 4 is a Ma Kade barron structure schematic diagram.
Fig. 5 is the improved Ma Kade barron structure schematic diagram that has adopted the capacitive load technology of the present invention.
Fig. 6 is a Ka frequency range four-time harmonic image frequency rejection mixer chip part photo in kind.
Fig. 7 is a Ka frequency range four-time harmonic image frequency rejection mixer photo in kind.
Fig. 8 is the conversion loss test result of Ka frequency range four-time harmonic image frequency rejection mixer of the present invention.
Fig. 9 is the image frequency inhibition degree test result of Ka frequency range four-time harmonic image frequency rejection mixer of the present invention.
Figure 10 is the LO of Ka frequency range four-time harmonic image frequency rejection mixer of the present invention and the isolation degree test result of RF.
Embodiment
A kind of four-time harmonic image frequency rejection mixer, as shown in Figure 3, the even-order harmonic mixing unit 2 that comprises the constant amplitude homophase merit parallel circuit l of the T joint network that adopts input, output port impedance phase coupling, is made up of improved Ma Kadebalun and two mixer tubes, adopt the intermediate frequency filtering circuit 3 that one section λ/2 open-circuit lines realize, 4, the 90 ° of phase-shift circuits 5 of 0 °/90 ° merit parallel circuits of constant amplitude and the mixer 6 of employing Lange electric bridge, preceding four parts realize on chip; The RF signal is divided into 0 °/90 ° two paths of signals by the Lange electric bridge and is added to two even-order harmonic mixing unit respectively, and the LO signal is assigned to two even-order harmonic mixing unit by T joint network constant amplitude homophase, at the intermediate frequency delivery outlet, utilize 90 ° of phase-shift circuits to 90 ° of one tunnel intermediate-freuqncy signal phase shifts, again the intermediate-freuqncy signal of two-way homophase is exported by mixer is synthetic, realized that image frequency suppresses; The mixing unit adopts resistive FET mixing, and the LO signal becomes the constant amplitude reverse signal through Ma Kadebalun, is added to two PHEMT tube grids respectively, and RF signal constant amplitude is with being added to the drain electrode of two PHEMT pipes, and this has just realized the even-order harmonic mixing.
The input of described T joint network adopts 50 ohm microstrip, and two outputs adopt 100 ohm microstrip, to realize the impedance matching of input, output port.
For the Lange electric bridge, at first adopt existing formulae to calculate the original dimension of Lange electric bridge, with the HFSS of electromagnetism simulation software circuit is carried out emulation and optimization again, the amplitude imbalance degree is less than 0.55dB in the frequency range of 30-40GHz to obtain the Lange electric bridge at last, and phase unbalance degree is less than 1 degree.
For even-order harmonic mixing unit, owing to adopted the four-time harmonic mixing, the LO frequency is relatively low, λ/4 Coupled Line Length of Band of Ma Kadebalun (as shown in Figure 4) commonly used are very long with respect to chip, be unfavorable on chip, realizing that therefore the way that adopts lumped-parameter element to load is dwindled the Ma Kadebalun size.Characteristic impedance is Z
0λ/4 transmission lines can the equivalence for characteristic impedance be Z, be shorter in length than λ/4, two ends are connected to the transmission line of shunt capacitance.Equivalent relation between them is:
Wherein, Z
0Be that the characteristic impedance of former Ma Kadebalun: Z and θ are characteristic impedance and the coupling lengths that carries out Ma Kadebalun after the capacitive load; C is the loading capacitance size; F is an operating frequency.Fig. 5 is the Ma Kade barron structure signal after the employing capacitive load technology, and its coupling line length is reduced into and does not load 1/8th of Ma Kadebalun Coupled Line Length of Band, has dwindled the Ma Kadebalun area greatly.Adopt Electromagnetic Simulation software that this circuit is carried out emulation, the amplitude imbalance degree is less than 1.27dB, and phase unbalance degree is less than 3 degree.
Resistive FET mixing generally need add a negative voltage at the triode grid, so that triode is in the pinch off state, realizes the switch mixing, improves mixing efficiency.In the design, adopt enhancement mode pHEMT (or HEMT) pipe as mixer tube, under the situation that does not add gate bias, this pipe has been in cut-off state, therefore can remove gate bias circuit, simplifies circuit design, dwindles chip area.
For the intermediate frequency filtering circuit, adopt the inhibition of one section λ/2 open-circuit lines realization at the IF mouth to the RF signal, prevent that the RF signal from leaking from the intermediate frequency mouth, the IF signal takes out from distance open circuit point λ/4.
Fig. 6 is a Ka frequency range four-time harmonic image frequency rejection mixer chip part photo in kind, adopts the manufacturing of commercial 0.18-μ m GaAsPHEMT technology, and chip size only is 1.4*1.9mm
2Fig. 7 is a Ka frequency range four-time harmonic image frequency rejection mixer photo in kind, comprises chip part, 90 ° of phase-shift circuits and mixer.
At RF is 30-40GHz, and IF is fixed on 60MHz, and this frequency mixer is tested: the RF input power is-20dBm that the LO input power is 12dBm; Conversion loss is 21dB-29.5dB, comprises the loss (being about 1dB) of input, out splice going splice and IF mixer, as shown in Figure 8; Image frequency inhibition degree is 15dB-34dB, and image frequency inhibition degree is poor slightly at the frequency low side, as shown in Figure 9 all greater than 20dB on most of Frequency point of 30-40GHz; Because adopt the even-order harmonic mixing, the isolation of LO and RF port is fine, when LO was 7.5-10GHz, the isolation of LO and RF was 23.8dB-35dB, as shown in figure 10.
Claims (4)
1, a kind of image frequency rejection mixer, comprise constant amplitude homophase merit parallel circuit (1), two even-order harmonic mixing unit (2), two intermediate frequency filtering circuit (3), 0 °/90 ° merit parallel circuits of constant amplitude (4), 90 ° of phase-shift circuits (5), power synthesis circuit six unit such as (6), preceding four unit are integrated on the chip; Local oscillator (LO) signal in phase is assigned to two even-order harmonic mixing unit (2) by constant amplitude homophase merit parallel circuit (1) constant amplitude; Radio frequency (RF) signal is divided into 0 °/90 ° two paths of signals of constant amplitude by 0 °/90 ° merit parallel circuits of constant amplitude (4), is added to two even-order harmonic mixing unit (2) respectively; At the intermediate frequency mouth, adopt intermediate frequency filtering circuit (3) to leach required intermediate-freuqncy signal; Utilize 90 ° of phase-shift circuits (5) to 90 ° of one tunnel intermediate-freuqncy signal phase shifts wherein then, again the two-way intermediate-freuqncy signal by the synthetic output of power synthesis circuit (6), obtain intermediate frequency (IF) signal that letter produces frequently, thereby the intermediate-freuqncy signal that image frequency is produced suppresses; It is characterized in that described constant amplitude homophase merit parallel circuit (1) is the T joint network of a simply input, output port impedance phase coupling.
2, a kind of image frequency rejection mixer according to claim 1 is characterized in that, the input of described T joint network adopts 50 ohm microstrip, and two outputs adopt 100 ohm microstrip, to realize the impedance matching of input, output port.
3, a kind of image frequency rejection mixer according to claim 1 and 2, it is characterized in that, described even-order harmonic mixing unit (2) adopts resistive FET mixing, form by Ma Kadebalun and two mixer tubes of adopting the capacitive load technology, wherein, adopt its Coupled Line Length of Band of Ma Kadebalun of capacitive load technology shorten to loading capacitance not the Ma Kadebalun Coupled Line Length of Band 1/8th, local oscillation signal becomes the constant amplitude reverse signal through the Ma Kadebalun that adopts the capacitive load technology, be added to two mixer tube grids respectively, the radiofrequency signal constant amplitude is with being added to two mixer tube drain electrodes, to realize the even-order harmonic mixing; Mixer tube can adopt enhancement mode pHEMT (or HEMT) pipe.
4, a kind of image frequency rejection mixer according to claim 1 and 2, it is characterized in that, described intermediate frequency filtering circuit 3 is one section λ/2 open-circuit lines, the one end links to each other with two mixer tube drain electrodes, the other end is unsettled, the IF signal takes out from distance open circuit point λ/4, to realize the inhibition to the RF signal, prevents that simultaneously the RF signal from leaking from the intermediate frequency mouth.
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| CN102428647A (en) * | 2009-03-12 | 2012-04-25 | 赫梯特微波公司 | Hybrid marchand/back-wave balun and double balanced mixer using same |
| CN102468035A (en) * | 2010-11-12 | 2012-05-23 | 台湾积体电路制造股份有限公司 | Balun system and method |
| CN105207644A (en) * | 2015-09-16 | 2015-12-30 | 电子科技大学 | On-chip active phase shifter based on vector synthesis |
| CN105978522A (en) * | 2016-05-04 | 2016-09-28 | 电子科技大学 | Absorption-type band pass filter assembly |
| CN106788501A (en) * | 2017-02-21 | 2017-05-31 | 成都沃邦德科技有限公司 | A kind of receiver suppressed with mirror image high |
| CN108551331A (en) * | 2018-03-23 | 2018-09-18 | 杭州电子科技大学 | One kind being based on transformer coupled matched millimeter wave low-loss frequency multiplier |
| CN108880478A (en) * | 2017-05-11 | 2018-11-23 | 北京遥感设备研究所 | A kind of Ka wave band image frequency rejection mixer |
| CN112928994A (en) * | 2021-01-24 | 2021-06-08 | 合肥芯谷微电子有限公司 | GaAs technology K wave band converter structure chip |
| CN114268329A (en) * | 2021-12-14 | 2022-04-01 | 天津大学 | Dual-frequency high-linearity demodulator |
| CN116317957A (en) * | 2023-05-24 | 2023-06-23 | 北京无线电测量研究所 | Orthogonal mixer chip |
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| CN102428647B (en) * | 2009-03-12 | 2016-01-20 | 赫梯特微波公司 | Mix Marchand (Marchand)/echo Ba Lun (balun) and use its double balanced mixer |
| CN102428647A (en) * | 2009-03-12 | 2012-04-25 | 赫梯特微波公司 | Hybrid marchand/back-wave balun and double balanced mixer using same |
| CN102468035A (en) * | 2010-11-12 | 2012-05-23 | 台湾积体电路制造股份有限公司 | Balun system and method |
| CN102468035B (en) * | 2010-11-12 | 2014-08-13 | 台湾积体电路制造股份有限公司 | Balun system and method |
| CN105207644A (en) * | 2015-09-16 | 2015-12-30 | 电子科技大学 | On-chip active phase shifter based on vector synthesis |
| CN105207644B (en) * | 2015-09-16 | 2018-08-21 | 电子科技大学 | A kind of on-chip active phase shifter based on Vector modulation |
| CN105978522A (en) * | 2016-05-04 | 2016-09-28 | 电子科技大学 | Absorption-type band pass filter assembly |
| CN105978522B (en) * | 2016-05-04 | 2019-05-10 | 电子科技大学 | A kind of absorption bandpass filtering device assembly |
| CN106788501B (en) * | 2017-02-21 | 2022-06-21 | 成都沃邦德科技有限公司 | Receiver with high image rejection |
| CN106788501A (en) * | 2017-02-21 | 2017-05-31 | 成都沃邦德科技有限公司 | A kind of receiver suppressed with mirror image high |
| CN108880478A (en) * | 2017-05-11 | 2018-11-23 | 北京遥感设备研究所 | A kind of Ka wave band image frequency rejection mixer |
| CN108551331A (en) * | 2018-03-23 | 2018-09-18 | 杭州电子科技大学 | One kind being based on transformer coupled matched millimeter wave low-loss frequency multiplier |
| CN112928994A (en) * | 2021-01-24 | 2021-06-08 | 合肥芯谷微电子有限公司 | GaAs technology K wave band converter structure chip |
| CN114268329A (en) * | 2021-12-14 | 2022-04-01 | 天津大学 | Dual-frequency high-linearity demodulator |
| CN114268329B (en) * | 2021-12-14 | 2023-09-19 | 天津大学 | Dual-frequency high-linearity demodulator |
| CN116317957A (en) * | 2023-05-24 | 2023-06-23 | 北京无线电测量研究所 | Orthogonal mixer chip |
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