oscillator noise 中文意思是什麼

oscillator noise 解釋
(本機)振蕩器噪聲
  • oscillator : n. 1. 搖擺者。2. 【電學】振蕩器,振動器,振動子,振動部。
  • noise : n 1 聲音,聲響。2 叫喊;嘈雜聲,噪音;喧鬧聲;吵鬧,騷動,騷擾。3 〈古語〉謠言,風聲。4 〈美國〉...
  1. In the sub block circuit design, the contents that the author had introduced include : the principle of band gap voltage reference and the design technique in low power supply ; the analysis of spike pulse noise rejection, frequency divider and dead time in oscillator and control circuit ; the selection of the width and length ratio of four switches and 2x / 1x mode change point in driver and mode selection circuits

    在子電路設計中,作者比較深入分析的內容有:基準電路的原理及低電源電壓下基準電路的設計;振蕩器和控制電路中尖峰脈沖噪聲抑制、兩分頻電路及死區時間設定;驅動及模式選擇電路中開關管的寬長比的選擇及模式轉換點的設計。
  2. Surface transverse wave has the 1. 6 high frequency than rayleigh type surface acoustic wave ( using the same technology the frequency of devices of stw has about 1. 6 high frequency than rayleigh type surface acoustic wave ). the paper introduces the theory, design parament, technology and result expeiment of surface acoustic wave ( includes rayleigh surface acoustic wave and surface transverse wave, simple stw ) with low insertion loss, high q and researches the high frequency, low phase noise oscillator with 1ghz stw resonator as frequency element. and describes measurement method and finally experimantal result of the low phase noise surface acoustic wave oscillator

    本文研究了以低損耗、高q值聲表面波(其中包括聲表面瑞利波- - rayleighsurfaceacousticwave ,和聲表面橫波等)諧振器的工作原理、設計參數、製作工藝及其實驗結果,並且研究了以1ghzstw諧振器為頻控元件的高頻率、低相位噪聲聲表面波振蕩器,以及低相位噪聲聲表面波振蕩器的測試方法和最終的測試結果。
  3. The major job is manufactured a transmitter, which has three upmixer channels. its function is to up convert the signals from c - band to ka - band. the input local oscillator is provided by a low frequency crystal oscillator which has a good performance of phase noise, through 512 times multiply to ka band. this sysetem is used in the laboratory as transmitter source of the fuze, for the multidimensional objects in practise, which lead to the complexity of the reflect signal, so the amplitude, frequency and the phase of the transmit signals both have a key role in dealing with the reflection signals. therefore, this system requires for both the coherence of the single channel ’ s amplitude, phase and multi channels

    本文的主要工作是應用戶要求製作一具有三發射通道的上變頻系統,可以將c波段的微波信號上變頻到ka波段的毫米波信號。系統的本振輸入基頻由一相位噪聲非常好的低頻率晶振提供,經過512次的倍頻放大至ka波段。本系統作為實驗室中引信的發射源,由於目標反射信號具有時變的多維性,反射信號變得極為復雜,在信號處理時,不僅信號幅值、頻率有決定意義而且相位關系也很有決定意義。
  4. The precise clock source is crystal oscillator made of 74hc04 ; the mute circuit can conceal the error and solve the problem of noise ; the antenna switching circuit in the receiver is to select one antenna from two which receives signal better. it can improve the quality of the receiving audio signal, restrain the noise effectively and promote the system performance

    高精度的時鐘源是由74hc04構成的晶體振蕩器;靜音電路將出錯的音頻信號進行差錯掩蓋,很好地解決了噪聲問題;接收機採用兩副天線切換工作,提高了音頻信號接收質量,有效地抑制干擾,提升了系統的性能。
  5. Lc oscillators have better phase noise, but the lowest noise is obtained with the use of a quartz crystal oscillator

    Lc諧振器利用石英晶體振蕩器產生基準源,因此抖動較小。
  6. Dr is made of microwave ceramic with high dielectric constant and very low loss. using dr, the phase noise of an oscillator could be made to be extremely low

    介質諧振器( dr )由高介電常數、低損耗的微波陶瓷材料製作而成,它能極其容易地實現微波頻率源的低相位噪聲。
  7. 2. using the simulation method and a lorentzian oscillator model, the influence of the deviation in experimental parameters, including the thickness of samples, the incident angle, the misalignment of the time delay line, the background noise and the laser noise is analyzed

    二、首次利用模擬thz輻射脈沖入射到共振吸收的樣品上的方法分析了厚度、角度、平移臺錯位、背景噪聲及激光器噪聲等對于光學常數測量產生的影響。
  8. In this paper, the operation principle of the oscillator is analyzed first, from the point of view of theory the designs of crystal resonator and its equivalent circuit, crystal oscillator and thermostatic chamber are defined. the noise model of circuit is used to analyze key factors influencing phase noise of the crystal oscillator, in order to control phase noise of the crystal noise from the very beginning of the design

    本文首先分析了振蕩器的工作原理,從理論的角度闡明了晶體諧振器及其等效電路、晶體振蕩器和恆溫箱的設計,利用電路的噪聲模型來分析影響晶體振蕩器相位噪聲的關鍵因素,從設計就開始控制晶振的相位噪聲,為更好地實現課題的目標打下良好的基礎。
  9. The resonance network is connected to the gate, then the output and input matching network is designed to satisfy the oscillation criteria. then harmonic balance method is used to analysize and optimize the output power and phase noise. to minimize the load pulling effect a buffer amplifier is designed to isolate the oscillator and the load

    本文在場效應管fet柵極上加上諧振網路(諧振網路是通過cst模擬得到的,它是串聯反饋迴路,介質工作在te01模,對于其後的fet ,它又相當於一個帶阻濾波器) ,然後設計輸入輸出匹配電路,使電路結構滿足起振條件,之後繼續用諧波平衡法模擬和優化,使振蕩器輸出功率合適,相位噪聲很低。
  10. Detection of weak square signal in strong noise with a chaotic oscillator

    用混沌振子檢測淹沒在強背景噪聲中的方波信號
  11. Third, an active mixer which needs only single - end local oscillator ( lo ) input is presented, which simplifies the rf block design and reduces the impacts of the phase noise of lo

    接著本文提出了一個新型的、只需要單端本振輸入的有源混頻器,簡化了整體電路設計,並降低了本振相噪帶來的影響。
  12. The adc aperture jitter must be minimal, and the sampling clock generated from a low phase - noise quartz crystal oscillator

    Adc的孔徑抖動必需盡可能的小,而且要使用低相位噪聲的石英晶體振蕩器作為采樣時鐘發生器。
  13. In the course of the low phase noise research, by integrating many aspects, using recent accomplishments, i come up with my method and theory, that by comprehending and controlling subcircuit of oscillator ' s resonator, can let us know exactly their working states. using this method and theory, combining the vco circuit of this subject, i deduce and demonstrate particularly the reason of low frequency oscillation, and come up with the measure of avoiding it. this makes design and producing vcos can avoid the disturbing of low frequency oscillation, and improve the features of vcos. at later process of debugging vco, using this method makes the vco achieves very good working state

    在低相噪研究中,綜合了各方面的情況,運用了當今低相噪vco的研究成果,並提出了自己的對諧振電路結構進行總體把握,從而準確得知電路的工作狀態的思想和理論。運用此方法,在論文中結合本vco電路拓撲結構,詳細推導和論證了低頻振蕩產生的原因,並提出了避免發生低頻振蕩的措施。使低相噪vco的設計及調試能免於低頻振蕩的干擾,從而有利於提高vco的各項指標。
  14. It admits of no delay to develop high stability crystal oscillator and enhance its phase noise index to reduce the effect of jitter to the performance of the whole system

    研製高穩定晶體振蕩器,提高相位噪聲指標、減少抖動對整體性能的影響,已經成為刻不容緩的任務。
  15. According to leeson model, which had proposed the relationship of noise between output and input in the feed - back oscillator, an experimental crystal oscillator circuit with high stability and low phase noise is designed

    參照提出反饋振蕩器中輸出和輸入噪聲關系的李森模型,設計一高穩定低相位噪聲振蕩器的實驗電路,並在實驗中分析電路關鍵元件對電路整體性能的影響。
  16. We aslo get the theory of verification test and design debug discussed, and then, some work on the verification test of this integrated circuits have been done. for the sake of finding out the reason of noise occurring in circuit of oscillator, we probe into causation of technics and mechanism

    論文最後基於晶元測試理論,針對晶元流片后的部分測試結果,對振蕩出現的噪聲問題給出了初步分析,並結合投片工藝探討了工藝原因與產生機理。
  17. The fourth, mainly talk about the phase noise in the pll, and discuss the specific affect on out put phase noise caused by different components in frequency synthesizer, such as mixer, amplifier, multipler, divider, oscillator, phase detector etc. the last part is about how to choice the natural frequency of pll in order to get the better performance in phase noise

    第二章從鎖相環的基本原理出發,介紹了鎖相環的幾個基本部件:鑒相器?環路濾波器和壓控振蕩器,對線性化鎖相環進行了詳細的分析,對數字鎖相環做了詳細的介紹,分析了鎖相環的相位噪聲模型,討論了頻綜中的混頻器
  18. At the same time, the technology of frequency synthesis is developing rapidly and it requires much better performance on its reference source - crystal oscillator. so, it is significant for practical applications and development of theory to make researches on crystal oscillator ' s phase noise and phase jitter, and improve its performance fundamentally

    同時隨著頻率合成技術的迅猛發展,對晶體振蕩器參考源的要求也越來越高,研究頻率源信號的相位抖動和相位噪聲,從根本上改善頻率源的性能,對于這一學科的理論發展和實際應用都具有重要的意義。
  19. The basic principle of feedback crystal oscillator is analyzed. the basic concept of frequency stability is also introduced, following by the usual expression of phase noise in frequency domain and phase jitter in time domain. further, we describe the origin of crystal oscillator ' s phase noise and phase jitter, also list a variety of its contributors

    然後從理論上分析了反饋型晶體振蕩器的基本工作原理,並闡述頻率穩定度的概念,給出了在頻域中相位噪聲和時域中相位抖動的表示方法,形成原因以及影響相位抖動的諸多因素。
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