壓控振蕩器(vco)技術(shù)綜述外文翻譯

1、<p>　　壓控振蕩器（VCO）技術(shù)綜述</p><p><b>　　1. 前言</b></p><p>　　壓控振蕩器(voltage-controlled oscillator, VCO) 是一種以電壓輸入來(lái)用來(lái)控制振蕩頻率的電子振蕩電路,是現(xiàn)代無(wú)線電通信系統(tǒng)的重要組成部分課題。在當(dāng)今集成電路向尺寸更小、頻率更高、功耗更少、價(jià)格更低發(fā)展的趨勢(shì)下，應(yīng)用標(biāo)準(zhǔn)

2、工藝設(shè)計(jì)生產(chǎn)高性能的壓控振蕩器已是射頻集成電路中的一個(gè)重要課題。環(huán)形振蕩器易于集成，可調(diào)頻率范圍大，但相位噪聲不如性能不如LC振蕩器。LC壓控振蕩器要求高品質(zhì)因素的無(wú)源器件，需要片上電感和變?nèi)莨芷骷拍芗杉伞?lt;/p><p>　　振蕩器自其誕生以來(lái)就一直在通信、電子、航海航空航天及醫(yī)學(xué)等領(lǐng)域扮演重要的角色，具有廣泛的用途。在無(wú)線電技術(shù)發(fā)展的初期，它就在發(fā)射機(jī)中用來(lái)產(chǎn)生高頻載波電壓，在超外差接收機(jī)中用作本機(jī)振蕩

3、器，成為發(fā)射和接收設(shè)備的基本部件。隨著電子技術(shù)的迅速發(fā)展，振蕩器的用途也越來(lái)越廣泛，例如在無(wú)線電測(cè)量?jī)x器中，它產(chǎn)生各種頻段的正弦信號(hào)電壓:在熱加工、熱處理、超聲波加工和某些醫(yī)療設(shè)備中，它產(chǎn)生大功率的高頻電能對(duì)負(fù)載加熱;某些電氣設(shè)備用振蕩器做成的無(wú)觸點(diǎn)開關(guān)進(jìn)行控制;電子鐘和電子手表中采用頻率穩(wěn)定度很高的振蕩電路作為定時(shí)部件等。尤其在通信系統(tǒng)電路中，壓控振蕩器(VCO)是其關(guān)鍵部件，特別是在鎖相環(huán)電路、時(shí)鐘恢復(fù)電路和頻率綜合器電路等更是重中

4、之重，可以毫不夸張地說(shuō)在電子通信技術(shù)領(lǐng)域，VCO幾乎與電流源和運(yùn)放具有同等重要地位。</p><p><b>　　2. 主題</b></p><p>　　2.1 VCO的發(fā)展過(guò)程 </p><p>　　上世紀(jì)初，Armstrong發(fā)明了電子管振蕩器，經(jīng)Hartley改進(jìn)電路設(shè)計(jì)并開發(fā)成功電子管VCO。電子管VCO的振蕩頻率是通過(guò)改變振蕩電路中電

5、感器或電容器的參數(shù)值來(lái)進(jìn)行調(diào)節(jié)。當(dāng)時(shí)人們對(duì)電子管振蕩電路開展了大量的研究，今天仍在沿用的Hartley，Colpitts，Clapp，Armstrong，Pierce等經(jīng)典振蕩電路結(jié)構(gòu)，就是當(dāng)時(shí)的研究成果。</p><p>　　上世紀(jì)中葉，晶體管問(wèn)世并很快取代電子管成為振蕩電路的有源器件。特別是變?nèi)荻O管的應(yīng)用對(duì)VCO的發(fā)展具有重要意義。變?nèi)荻O管的電容隨外加電壓的改變而變化，用變?nèi)荻O管作壓控器件，改變其控制電

6、壓就可實(shí)現(xiàn)VCO振蕩頻率的調(diào)節(jié)。這樣，晶體管、變?nèi)荻O管和其他無(wú)源元件就構(gòu)成了分立式的晶體管VCO。這種晶體管VCO實(shí)現(xiàn)了振蕩頻率的電子調(diào)諧，這是變?nèi)荻O管對(duì)VCO發(fā)展的重大貢獻(xiàn)。與電子管VCO相比較，晶體管VCO具有電子調(diào)諧、體積小、成本低、功耗小、質(zhì)量好、調(diào)頻范圍設(shè)置簡(jiǎn)便等優(yōu)點(diǎn)。晶體管VCO的發(fā)展也是是電視技術(shù)能在當(dāng)時(shí)迅速推廣的重要原因。1960年至1980年，晶體管VCO被電子系統(tǒng)設(shè)計(jì)所廣泛采用。到了1980年，情況發(fā)生了變化，混

7、合集成的VCO組件和單片集成的VCO IC出現(xiàn)了。這兩種新技術(shù)對(duì)VC0的發(fā)展產(chǎn)生了重要的影響。VCO從此就開始步入現(xiàn)代VCO技術(shù)的發(fā)展時(shí)期。各種VCO技術(shù)的壽命期與時(shí)間的關(guān)系示于圖l。該圖簡(jiǎn)要地說(shuō)明了VCO技術(shù)在過(guò)去80多年里的發(fā)展歷程。</p><p>　　圖1 各種VCO技術(shù)壽命期</p><p>　　變?nèi)荻O管、電容器、電感器等元器件的小型化為制造VCO組件創(chuàng)造了條件。VCO組件是一

8、種混合集成電路器件，具有封裝和外引線。雖然分立元件的晶體管VCO具有按用戶要求設(shè)計(jì)工作頻率和調(diào)諧范圍的靈活性，但一般在生產(chǎn)中都需要耗費(fèi)大量的人工對(duì)確定頻率的元件進(jìn)行調(diào)試，以消除元件誤差對(duì)頻率的影響。此外，分立元件VCO需要良好的屏蔽，其尺寸也比較大。分立元件的VCO已不能完全滿足現(xiàn)代無(wú)線電子系統(tǒng)發(fā)展的要求。</p><p>　　20世紀(jì)80年代末、90年代初，移動(dòng)電話迅速發(fā)展，對(duì)帶封裝的振蕩器組件的需求也日益增長(zhǎng)

9、。這為VCO組件的發(fā)展提供了難得的市場(chǎng)機(jī)遇。隨著新型無(wú)線應(yīng)用領(lǐng)域的不斷發(fā)展，各VCO組件廠商開發(fā)了適合不同應(yīng)用領(lǐng)域所需頻率的產(chǎn)品。由于表面安裝元件的不斷小型化(1206，0805，0603，0402和0201)，新開發(fā)的VCO組件的尺寸也越來(lái)越小，成本也越來(lái)越低。圖2說(shuō)明了現(xiàn)代商用VCO組件尺寸隨時(shí)間減小的變化情況。目前，VCO組件達(dá)到了新的水平，其體積已減小到4 mm×5mm×2mm，大批量供貨VCO的銷售單價(jià)已降

10、至1美元左右。VCO組件在15年中其尺寸急劇減小，滿足了蜂窩電話等新型無(wú)線移動(dòng)裝置對(duì)小型化的要求。</p><p>　　VCO組件體積變化過(guò)程圖2 </p><p>　　20世紀(jì)90年代末期，出現(xiàn)了一種尺寸更小、成本更低的VCO技術(shù)，這就是單片集成VCO技術(shù)。單片集成VCO是一種半導(dǎo)體集成電路器件，其全部電路元件均集成在同一芯片上。這種器件像VCO組件一樣，是一個(gè)完整的VCO，具有封裝和外

11、引線。首批單片集成VCO采用2英寸GaAs IC工藝和單片微波集成電路(MMIC)技術(shù)制造，是為衛(wèi)星接收機(jī)和雷達(dá)系統(tǒng)研制的。其工作頻率高達(dá)數(shù)GHz，但成本高昂。大多數(shù)早期單片GaAs VCO的研究工作都是針對(duì)軍事應(yīng)用展開的，很少涉及民用領(lǐng)域。在20世紀(jì)80年代，Si-IC技術(shù)還是一種低頻技術(shù)，不能為單片集成VCO提供上千兆赫茲的工作頻率和所需的帶寬。</p><p>　　經(jīng)過(guò)研究與開發(fā)，1990年Si-IC技術(shù)在

12、高頻化和無(wú)源元件集成方面獲得重大進(jìn)展，開發(fā)成功工作頻率很高的晶體管、變?nèi)荻O管和單片集成的高Q值電感器與高頻電容器。這為高頻硅單片集成VCO的研究與開發(fā)奠定了技術(shù)基礎(chǔ)。無(wú)線移動(dòng)通信系統(tǒng)的發(fā)展，要求大批量提供成本低、體積小、工作在800～2500MHz頻段的VCO。人們?yōu)榇碎_展了大量的研究與開發(fā)工作。1992年，美國(guó)California大學(xué)首先報(bào)道了硅單片VCO IC的研究成果。其后，對(duì)硅單片VCO IC的研究進(jìn)入繁榮期，采用不同技術(shù)方案

13、的硅單片VCO IC相續(xù)問(wèn)世。</p><p>　　硅單片VCO IC由高頻雙極晶體管IC技術(shù)和SiCMOS-IC技術(shù)研制而成。在硅單片VCO IC的研制過(guò)程中，學(xué)術(shù)研究機(jī)構(gòu)通常采用獲得廣泛應(yīng)用的SiCMOS-IC技術(shù)，而工業(yè)界則采用RFIC專用的BiCMOS技術(shù)。硅單片集成VCO體積更小、成本更低并適合大批量生產(chǎn)的產(chǎn)品，而且可以采用RF收發(fā)前端的工藝技術(shù)進(jìn)行制造。這表明，VCO可以與混頻器、低噪聲放大器、鎖相環(huán)

14、等其他RF收發(fā)前端的功能電路模塊實(shí)現(xiàn)集成。正是由于VCO IC具備這些潛在的優(yōu)勢(shì)，盡管早期產(chǎn)品性能欠佳，但人們對(duì)它的研究工作一直沒(méi)有停頓。通過(guò)不斷改進(jìn)，其產(chǎn)品已廣泛應(yīng)用于無(wú)繩電話、藍(lán)牙裝置、WLAN、GPS、DBS等無(wú)線裝置與系統(tǒng)之中。表1列出了一些單片集成VCO的應(yīng)用實(shí)例。</p><p>　　表1 含有單片集成VCO的商用RFIC實(shí)例</p><p>　　目前，單片集成VCO還不能用于

15、對(duì)相位噪聲要求很高的應(yīng)用領(lǐng)域。像GSM、CDMA等具有高數(shù)據(jù)速率的移動(dòng)電話系統(tǒng)，還只能使用VCO組件。</p><p>　　2.2 VCO技術(shù)的發(fā)展趨勢(shì)</p><p>　　今后，VCO技術(shù)的研究與開發(fā)工作將繼續(xù)圍繞VCO組件和單片集成VCO展開。但是，全集成單片VCO技術(shù)是研究工作的重點(diǎn)，也是未來(lái)VCO技的發(fā)展方向?yàn)榱诉m應(yīng)現(xiàn)代無(wú)線系統(tǒng)發(fā)展的要求，VCO組件不斷向小型、高頻、寬帶、高輸出化

16、和特性多樣化方向發(fā)展。將采用新的超小型元件和更先進(jìn)的薄膜技術(shù)與表面安裝技術(shù)，繼續(xù)推進(jìn)VCO組件封裝的微型化和表面安裝化。通過(guò)晶體管的改進(jìn)及振蕩電路的開發(fā)，解決好小型化帶來(lái)的諧振器Q值降低的問(wèn)題和低功耗引起的特性劣化問(wèn)題。第四代移動(dòng)電話以及其他工作在微波頻段高端的無(wú)線系統(tǒng)需要VCO組件進(jìn)一步提高工作頻率，實(shí)現(xiàn)VCO組件高頻化。開發(fā)工作頻率更高的微波VCO組件是未來(lái)十分重要的研究課題。</p><p>　　SiGe

17、BiCMOS等RF IC基礎(chǔ)工藝技術(shù)正在不斷發(fā)展與進(jìn)步。半導(dǎo)體工藝制造有源器件與無(wú)源器件將具有更好的性能?，F(xiàn)在，即使用Si工藝技術(shù)，也可制得 超過(guò)50GHZ的晶體管和高Q值，大電容變比，低串聯(lián)電阻的優(yōu)質(zhì)便容二極管。這類工藝技術(shù)還具有襯底損耗低，金屬化層厚，器件寄生元件少，工作頻率高，工作電流小的單片集成VCO。</p><p>　　現(xiàn)代無(wú)線系統(tǒng)，尤其是現(xiàn)代無(wú)線移動(dòng)通信系統(tǒng)，不僅要求VCO自身小型化和低成本化，而且

18、希望VCO能同頻率合成器與收發(fā)機(jī)的其他單元電路進(jìn)行單片集成，以達(dá)到減少整機(jī)體積和成本的目的。此外，單片集成VCO的設(shè)計(jì)理論也在深化，設(shè)計(jì)技術(shù)也越來(lái)越先進(jìn)。差分放大器，幅度控制，二次諧波抑制器，IC耦合變壓器，復(fù)合振蕩器，高頻結(jié)構(gòu)設(shè)計(jì)等技術(shù)正不斷被納入單片集成VCO的設(shè)計(jì)之中。利用單片集成VCO技術(shù)把優(yōu)質(zhì)VCO同收發(fā)機(jī)電路集成在一起的新產(chǎn)品不斷問(wèn)世。例如在WLAN和藍(lán)牙裝置中，最新的收發(fā)機(jī)就把高質(zhì)量的VCO同RF收發(fā)前端IC集成在一起，使

19、其尺寸大大減小。  WLAN系統(tǒng)（2.4GHZ 802.11b型和5GHZ 802.11a型）要求VCO具有很低的相位噪聲。</p><p>　　由于RF IC VCO技術(shù)的不斷發(fā)展，衛(wèi)星接收機(jī)，CATV機(jī)頂盒，無(wú)線數(shù)據(jù)裝置，無(wú)繩電話，移動(dòng)電話等商用RF系統(tǒng)與裝置越來(lái)越多地采用集成化頻率源。顯然，在大規(guī)模商業(yè)應(yīng)用領(lǐng)域中，單片集成VCO占有的市場(chǎng)份額將不斷增大，而分立元件VCO和VCO組件占有市場(chǎng)將逐步減

20、小。單片集成VCO在大規(guī)模商用無(wú)線系統(tǒng)中占主導(dǎo)地位的時(shí)代很快就會(huì)到來(lái)。VCO技術(shù)已經(jīng)實(shí)現(xiàn)了從笨重的電電子管VCO電路到面積小于1平方毫米Si IC的跨越。</p><p><b>　　3. 總結(jié)</b></p><p>　　VCO是頻率源的關(guān)鍵器件，已廣泛應(yīng)用于各種電子系統(tǒng)之中。VCO的性能對(duì)電子系統(tǒng)有決定性的影響。現(xiàn)代無(wú)線移動(dòng)通信系統(tǒng)的發(fā)展促進(jìn)VCO高頻化，形成了

21、新一代微波VCO。VCO組件和單片集成VCO是微波VCO的主要結(jié)構(gòu)形式，是目前無(wú)線系統(tǒng)采用的主流產(chǎn)品。雖然，在總體性能水平方面，單片集成VCO目前還不如VCO組件好，但它具有集成優(yōu)勢(shì)，仍然是VCO未來(lái)發(fā)展的方向。在RF IC工藝技術(shù)中，SiGe BiCMOS技術(shù)是單片集成VCO最有前途的制造技術(shù)。</p><p>　　來(lái)源于：ISO/IEC JTC1/SC29/WG1 (ITU-SG8) N2058, "

22、;JPEG2000 is now an International Standard", 9 March 2001.</p><p><b>　　附：英文原文</b></p><p>　　voltage controlled oscillator </p><p><b>　　1 Preface</b></

23、p><p>　　Voltage controlled oscillator ( voltage-controlled oscillator, VCO ) is a kind of voltage input to control the oscillation frequency of the oscillating circuit, is a modern radio communication system is

24、 an important part of task [1] [2]. In the integrated circuit to the smaller size, less power consumption, higher frequency, lower price trends, application standard process design and production of high performance volt

25、age controlled oscillator RF integrated circuit is an important subject in the</p><p>　　Oscillator since its birth has been in communication, electronics, aerospace and other fields of medicine navigation pl

26、ays an important role, has a wide range of uses. In radio technology in the initial stage of development, it is in the transmitter to generate high frequency carrier wave voltage, the heterodyne receiver is used as a loc

27、al oscillator, a transmitting and receiving equipment basic components. With the rapid development of electronic technology, the oscillator uses more and more wi</p><p><b>　　2.Theme</b></p>

28、<p>　　2.1The development of 1.VCO process</p><p>　　At the beginning of the last century, Armstrong invented electronic oscillator, the improved Hartley circuit design and the successful development of

29、 VCO tube. Electronic tube VCO oscillation frequency is changed by the oscillation circuit inductor or capacitor parameter values to adjust. At that time the people to the electronic tube oscillation circuit to carry out

30、 a great deal of research, today is still in use in the Hartley, Colpitts, Clapp, Armstrong, Pierce and other classical oscillating</p><p>　　The middle of the last century, the first transistor and quickly r

31、eplace the tube becomes oscillatory circuit of the active device. In particular the varactor applications on the VCO has important significance to the development of. Variable capacitance diode capacitance as a function

32、of the applied voltage change, using varactor diode voltage controlled device, change the control voltage can be achieved VCO oscillation frequency regulation. In this way, the transistor, varactor diodes and other</p

33、><p>　　Fig 1 VCO technology life cycle</p><p>　　Variable capacitance diodes, capacitors, inductors and other components of the miniaturization for the manufacture of VCO components to create the co

34、nditions. VCO component is a hybrid integrated circuit device, a package and the outer lead wires. Although discrete transistor VCO according to user requirements with the design and operating frequency tuning range and

35、flexibility, but generally in the production need to consume a large amount of artificial to determine the frequency components for</p><p>　　At the end of nineteen eighties, the early 90's, the rapid dev

36、elopment of the mobile phone, with a package of oscillator components growing demand. This is a VCO component development offerred rare market opportunity. Along with the new wireless application development, each VCO co

37、mponent manufacturers developed for different applications in the field of desired frequency products. Due to the small surface mount components (1206080506030402 and0201), the new development of the VCO component size&l

38、t;/p><p>　　The VCO component volume change process of2</p><p>　　Nineteen ninties stage, the emergence of a smaller size, lower cost of the VCO technology, which is monolithically integrated VCO tec

39、hnology. Monolithic integrated VCO is a semiconductor integrated circuit device, all the circuit components are integrated on the same chip. This device like the VCO module, is a complete VCO, with packaging and outer le

40、ad. The first batch of monolithic integrated VCO uses 2 inches of GaAs IC technology and the monolithic microwave integrated circuit ( MMIC ) manuf</p><p>　　Through research and development, in 1990 the Si-I

41、C technique in high frequency and passive components integration has achieved significant progress, the successful development of the work with very high frequency transistor, variable capacitance diode and monolithic in

42、tegration of high Q value of the inductor and the high frequency capacitor. The high frequency silicon monolithic integrated VCO research and development laid a technological basis. Wireless mobile communication system d

43、evelopment</p><p>　　Silicon Monolithic VCO IC by high frequency bipolar transistor IC technology and SiCMOS-IC technology developed by. In Silicon Monolithic VCO IC development process, academic and research

44、 institutions usually adopt the widely used SiCMOS-IC technology, while the industry is using RFIC special BiCMOS technology. Silicon monolithic integrated VCO smaller volume, lower cost and suitable for mass production

45、of products, but also can be used to RF front-end technology manufacturing. This shows, VCO c</p><p>　　Table 1 contains monolithic integrated VCO RFIC commercial examples</p><p>　　At present, mo

46、nolithic integrated VCO also cannot be used for phase noise of demanding applications. Like GSM, CDMA has a high data rate mobile phone system, also can use VCO components</p><p>　　2.2The development trend o

47、f 2.VCO Technology</p><p>　　In the future, VCO technology research and development work will continue to focus on VCO components and monolithic integrated VCO expansion. However, the monolithic integrated VC

48、O technology is the research focus, but also the future of VCO technology development direction in order to adapt to modern wireless system development requirements, VCO components to small, high frequency, wide band, hi

49、gh output and characteristic development. We will adopt a new miniature components and more advanced </p><p>　　SiGe BiCMOS RF IC basic technology is evolving with progress. Semiconductor manufacturing techno

50、logy of active devices and passive components will have better performance. Now, using the Si technology, also can be used for more than 50GHZ transistors and high Q value, high capacitance ratio, low series resistance a

51、nd capacitance diode quality. This technology also has a substrate of low loss, metal layer thickness of parasitic element, device is little, high working frequency, small working curr</p><p>　　Modern wirele

52、ss systems, especially in modern mobile communication system, not only requires the VCO its miniaturization and low cost, but also hope that VCO with frequency synthesizer and transceiver unit circuits are monolithically

53、 integrated, so as to reduce the volume and cost of the. In addition, monolithic integrated VCO design theory also is being deepened, more and more advanced design technology. Differential amplifier, amplitude control, t

54、wo harmonic suppressor, IC coupling transformer</p><p>　　Because RF IC VCO technology unceasing development, satellite receiver, CATV set-top box, wireless data device, cordless phones, mobile phones and oth

55、er commercial RF systems and devices are increasingly used integrated frequency source. Obviously, in large-scale commercial application, monolithic integrated VCO market share will continue to increase, and the discrete

56、 component VCO and VCO components of market share will be reduced stage by stage. Monolithic integrated VCO in large-scale commerc</p><p>　　3.summary </p><p>　　支持網(wǎng)頁(yè)翻譯，在輸入框輸入網(wǎng)頁(yè)地址即可</p><

57、;p>　　提供一鍵清空、復(fù)制功能、支持雙語(yǔ)對(duì)照查看，使您體驗(yàn)更加流暢</p><p><b>　　分享到</b></p><p><b>　　翻譯結(jié)果重試</b></p><p>　　抱歉，系統(tǒng)響應(yīng)超時(shí)，請(qǐng)稍后再試</p><p>　　支持中英、中日在線互譯</p><p&

58、gt;　　支持網(wǎng)頁(yè)翻譯，在輸入框輸入網(wǎng)頁(yè)地址即可</p><p>　　提供一鍵清空、復(fù)制功能、支持雙語(yǔ)對(duì)照查看，使您體驗(yàn)更加流暢</p><p><b>　　分享到 </b></p><p><b>　　翻譯結(jié)果重試</b></p><p>　　抱歉，系統(tǒng)響應(yīng)超時(shí)，請(qǐng)稍后再試</p>

59、<p>　　支持中英、中日在線互譯</p><p>　　支持網(wǎng)頁(yè)翻譯，在輸入框輸入網(wǎng)頁(yè)地址即可</p><p>　　提供一鍵清空、復(fù)制功能、支持雙語(yǔ)對(duì)照查看，使您體驗(yàn)更加流暢</p><p><b>　　分享到</b></p><p><b>　　翻譯結(jié)果重試</b></p>

60、<p>　　抱歉，系統(tǒng)響應(yīng)超時(shí)，請(qǐng)稍后再試</p><p>　　支持中英、中日在線互譯</p><p>　　支持網(wǎng)頁(yè)翻譯，在輸入框輸入網(wǎng)頁(yè)地址即可</p><p>　　提供一鍵清空、復(fù)制功能、支持雙語(yǔ)對(duì)照查看，使您體驗(yàn)更加流暢</p><p>　　VCO is the key device of frequency source,

61、 has been widely used in various electronic systems. The performance of VCO has a decisive effect on electronic system. In modern mobile communication system to promote the development of VCO high frequency, to form a ne

62、w generation of microwave VCO. The VCO components and VCO microwave monolithic integrated VCO is a main structural form, is currently the mainstream product of wireless system. Although, in the overall performance levels