mixer circuit 中文意思是什麼

mixer circuit 解釋
混頻電路
  • mixer : n. 1. 混合者。2. 混合[攪拌]器;【冶金】混鐵爐;混頻器;【無線電】混頻管。3. 〈原美、口〉交際家;交誼會;【無線電】錄音師。
  • circuit : n 1 (某一范圍的)周邊一圈;巡迴,周遊;巡迴路線[區域];迂路。2 巡迴審判(區);巡迴律師會。3 【...
  1. Mixers are the key components of many microwave and millimeter - wave systems. the super - heterodyne receiver is always applied in modern communication system, mixer becomes the key component as is at the first part of system. but it is more and more difficult to get the choiceness lo source of the same band with the system is working at high frequency especially in the millimeter - wave. sub - harmonic mixer is a good solution to this problem now. in this circuit we need just half 、 quarter 、 even 1 / 8 of the rf signal frequency. in this paper the design and fabricate of sub - harmonic hmic mixers ( 2, 4 ) at w - band are introduced

    混頻器是微波通信、射電天文學、雷達、等離子物理、遙控、遙感、電子對抗,以及許多微波測量系統中至關重要的部件。在現代通信系統中,毫米波頻段通常採用超外差接收機,混頻器作為第一級就成為關鍵部件。由於在毫米波頻段,同頻段高性能的本振源成本高,技術難度大,採用分諧波混頻技術是解決此問題的有效途徑,只需射頻頻率1 / 2 、 1 / 4甚至1 / 8的本振頻率即可實現混頻。
  2. Chapter 5 is about the design of millimeter wave solid circuit included frequency multiplier, low noise amplifier, medium power amplifier, mixer, if amplifier lastly, based on the work above, a millimeter wave t / r module is developed and the analysis of the result is also introduced

    第五章毫米波固態電路,詳細分析了毫米波倍頻器、低噪聲放大器、毫米波放大器、混頻器的理論,製作了毫米波混頻器、毫米波放大器、中頻放大器、倍頻器等有源電路。最後,在上述基礎上製作了毫米波t / r組件。
  3. The modulation circuit utilized the vector modulation technology based on fourth - harmonic mixer. the lo frequency is only quarter of carrier frequency. direct high speed qpsk digital modulation of millimeter wave signal can be realized with fairly simplified lo circuit

    調制電路採用了以四次諧波混頻器技術為核心的矢量調制技術,利用1 / 4載波頻率作為本振信號,實現了對毫米波信號直接進行高速qpsk數字調制。
  4. The design process consisted of computer design by circuit simulation software integrate with electromagnetic simulation software, fabrication of microstrip bpf 、 lpf 、 the match circuits, cavity and test. when rf frequency is 91 ~ 97ghz, lo frequency is 47ghz, power is 10 dbm. the best conversion loss of the 2 and 4 sub - harmonic mixer is 13. 5 db and 23. 5db which is shown in the test

    實測表明,在本振為47ghz ,功率10dbm ,測試射頻帶寬為91ghz 97ghz時,二次與四次分諧波混頻器變頻損耗最優處分別為12 . 7db和23db 。最後對實驗結果進行分析並提出改進措施。
  5. In former, image - reject mixer uses phasing to differentiate between two single - balance mixers. it ' s four diode is type of dmk - 2606 by made alphar corporation, module of mixer ' s integrated circuit is simulate by senerade 8. 0 and ads software

    然後介紹了混頻器的基本原理,設計了鏡像抑制混頻器和上變頻器放大電路,鏡像抑制混頻器是利用兩個單平衡混頻器的相位差對鏡頻進行抑制,其中四個混頻二極體採用alphar公司dmk - 2606型。
  6. Parallel structure of poly - phase decomposition and parallel mixer is applied in the ddc circuit, it solves the bottleneck in mixing and increases the handle speed. the partition of the tuning channel according to the digital mixing sequence, and the ddc by means of decimating first, the low - pass filtering and mixing realize efficiently the down - conversion of the variable carrier frequency band - pass signal. according to the structure of the ddc and the requirement of the frequency

    短數據快速測頻演算法的具體實現:使用并行流水線的設計方法,提高了系統的數據吞吐率,在100mhz的系統時鐘下,能夠實時處理400mhz ~ 600mhz速率a / d采樣的數據,在64點采樣, 100mhz系統時鐘情況下,初次測頻佔用時間640ns ,以後每次測頻佔用時間縮短到160ns ,實時地提供多相濾波下變頻所需的載頻位置信息,縮短了接收機的調諧時間。
  7. In this chapter, the suitable devices and circuit structure have been choosed to design a second order multiplier, a fifth order multiplier, a sixth order harmonics mixer and a dro operating in 9. 4ghz. the forth chapter is a section of system realization and test, in this chapter, the system of low phase noise frequency source has been constructed and tested. the results show that the targets of the system have been achieved

    第三章的系統分器件與實驗數據部分,主要是以上述第二章的分析為基礎,以所推導的理論公式為指導選取必要的器件和合適的電路拓撲結構,分別設計實現了一個二次倍頻器,五次倍頻器, 6次諧波混頻器和一個9 . 4ghz的介質振蕩器,為後述整個系統的實現在硬體上做了必要的準備。
  8. In the design of w band double - balanced mixer, a novel structure using magic - t and two baluns, which all realized by ratrace, is proposed with no crossing of transmission line. rf and lo signals are transmitted to the circuit by waveguide - to - microstrip probe transitions

    在w頻段雙平衡混頻器的設計中,本文提出由混合環構成的魔t與巴倫級連而成的功率混合電路,這種新穎的電路結構使整個電路單平面化,避免了任何跳線。
  9. Compared with all kinds of mixer circuits and emphasized on improving linearity of the mixer, double balance current switch circuit has been chosen for mixer

    對比分析混頻器的各種拓撲結構,從提高混頻器的線性度出發,折衷考慮功耗、線性度、增益等因素的影響,選取雙平衡電流開關電路作為混頻器的核心單元。
  10. Secondly, mixer circuit, one of the key part of rf circuits, was optimized and designed

    其次,優化設計了rf電路中核心部件之一的混頻器( mixer )電路。
  11. The method is attempted in lan, proved that it can be used to design microwave mixer circuit in lan, which can satisfy the need for group design. finally

    將此方法在lan上進行了嘗試,證明了其同樣適用於lan上的微波混頻器電路的設計,有助於滿足微波混頻器以及其他微波部件電路團隊設計的需要。
  12. The research of the subject includes : first, study the problems during circuit design using microwave software ; second, use mathcad to program the data calculation and band it together with microwave to design mixer circuit

    研究的最後,根據兩個微波部件外特性的測試結果,使用本方法分析求得了相應的電路結構和參數。
  13. Finally, a ku - band receiver combined with lna, mixer and filter is designed, and a complete flow chart for the design process of the front - end circuit is given. in the end, some rf transceiver examples such as microwave power transfer system, satellite communication receiver system and phs cell station system are introduced and analyzed

    最後結合前面各章內容,給出了一個ku波段射頻前端接收機完整設計實例,並給出了包含微波無線供電系統、衛星接收機和phs基站在內的多個射頻前端電路的實例分析。
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