一种巴特勒低噪声声表面波振荡器的设计

从提高有载品质因数QL的角度出发设计了一种315 MHz低噪声声表面波振荡器.通过分析巴特勒共基声表面波振荡电路得到了QL的表示式,在此基础上设计了一个实际的315 MHz巴特勒共基声表面波振荡器样机,并对其进行了相位噪声测试.设计中使用的声表面波谐振器是R3t5,其无载品质因数Q0约为1.06×104,实际测得该振荡器的相位噪声结果为-129 dBc/Hz@1 kHz和-161 dBc/Hz@10 kHz.     

一种钽酸锂压控振荡器的设计与实现

该文使用具有低电容比、宽调谐范围的钽酸锂晶体设计了一巴特勒共基低相位噪声压控振荡器,此设计在寻求高有载品质因数QL的同时保持了振荡器的输出功率。使用的钽酸锂晶体的无载品质因数Q0约为1.24×103,其频率为10.727MHz。设计出的巴特勒振荡器QL≈33%Q0,输出功率约为11dBm。不加压控的情况下,实际测得该振荡器的相位噪声结果为-85dBc/Hz@10 Hz和-145dBc/Hz@1kHz。在此基础上,增加一变容二极管作为压控元件设计了钽酸锂压控振荡器,在2~10 V范围内,测得控制电压压控斜率约为86.6×10-6/V,相位噪声测试结果优于-82dBc/Hz@10Hz和-142dBc/Hz@1kHz,实现了具有宽调谐范围的低相位噪声钽酸锂振荡器的设计。     

一种低相位噪声CMOS晶体振荡器的设计

运用小信号等效模型和负阻分析法,对晶体振荡器的起振条件进行分析,并用Matlab进行了仿真验证。采用TSMC 0.18μm CMOS工艺,设计了一种基于Pierce三点式振荡器结构的14MHz晶体振荡电路。提出了一种新的幅度控制电路,提高了振荡器相位噪声性能,并降低了功耗。仿真结果表明,振荡器的相位噪声达到-129.5dBc/Hz@1kHz和-143.658dBc/Hz@10kHz,具有优良的低相位噪声特性。     

基于可变电容反馈技术的宽带VCO设计

该文提出了一种用于展宽Colpitts压控振荡器(VCO)调谐范围(T_R)的技术。为了实现宽调谐范围,采用一种可变电容反馈技术,该技术同时可得到优于传统Colpitts VCO的相位噪声。且该结构采用动态正向衬底自偏技术,以实现VCO较低功耗、易于起振的特性。基于90 nm CMOS工艺,设计了一款VCO,其相位噪声为-101.9 dBc/Hz@1 MHz,调谐范围为28.1%,考虑调谐范围的品质因数可达-192.2 dBc/Hz。芯片在1 V电压供电下,消耗了5.8 mW,芯片面积为0.45 mm~2。     

低相噪锁相介质振荡器研究

针对高的相位噪声指标要求,对取样锁相介质振荡器进行了研究.通过相位噪声分析,明晰了采用介质振荡器与取样锁相技术降低相位噪声的机理,并分别对介质振荡器与锁相环路进行了设计.设计中,应用HFSS与ADS对介质振荡器进行了联合仿真,体现了计算机辅助设计的优势.最终研制出17 GHz锁相介质振荡器,测试结果为:输出功率13.1 dBm;杂波抑制>70 dB;谐波抑制>25 dB; 相位噪声为-105 dBc/Hz@1 kHz,-106 dBc/Hz@10 kHz,-111 dBc/Hz@100 kHz,-129 dBc/Hz@1 MHz.     

输入输出调谐的低相位噪声CMOS压控振荡器

设计了一个输入输出双调谐的CMOS压控振荡器(VCO),与传统的互补型交叉耦合对结构相比,该VCO谐振回路的有载品质因数得到提高,从而降低了相位噪声.采用CSM 0.25μm RF CMOS工艺设计,使用Cadence SpectreRF工具进行了仿真.仿真结果表明在2.5V的电源电压下,调谐范围为2.24～2.58GHz,达到了14.2%,相位噪声为-128dBc/Hz@1MHz,功耗为15mw.     

基于高次谐波体声波谐振器的微波振荡器设计

基于高次谐波体声波谐振器(HBAR)的高品质因数(Q)值和多模谐振特性,设计了Colpitts和Pierce两种形式的微波振荡器。采用HBAR与LC元件组成谐振回路的方法,与放大电路构成反馈环路直接基频输出微波频段信号。Colpitts振荡器输出信号频率为980 MHz,信号输出功率为-4.92dBm,信号相位噪声达-119.64dBc/Hz@10kHz;Pierce振荡电路输出信号频率达到2.962GHz,信号输出功率为-9.77dBm,信号相位噪声达-112.30dBc/Hz@10kHz。     

一种VHF频段具有抗振性能的晶体振荡器的设计

描述了一个100.0 MHz的石英晶体振荡器的设计和性能,提出了一种在振动条件下获得较好相位噪声性能的方法。测试结果表明:在静止状态下,晶体振荡器的相位噪声为:-143.0 dBc/Hz@1 kHz,-156.8 dBc/Hz@10 kHz;在任一方向的随机振动条件下,晶体振荡器的相位噪声优于-137.4 dBC/Hz@1 kHz,-150.9 dBC/Hz@10 kHz。     

晶体振荡器双层隔振系统的设计与实验

分析了振动环境对晶体振荡器的影响,并以此为依据设计了一种针对晶体振荡器的双层被动隔振系统。仿真结果表明该隔振系统具有较低的位移传递率。实验结果表明,在频率为20～2 000 Hz、功率谱密度为0.05 g2/Hz的随机振动下,加速度灵敏度约为2×10-9/g、中心频率为12.8 MHz的AT-切晶体振荡器,通过应用此双层被动隔振系统,晶体振荡器的动态相位噪声可由-102 dBc/Hz@1 kHz降低到-120 dBc/Hz@1 kHz。     

一种低相位噪声的毫米波压控振荡器

基于推推振荡器结构设计了一种低相位噪声的毫米波压控振荡器,相比传统采用直接振荡和倍频实现的振荡器,该振荡器具有体积小、相位噪声低及电路简单等优点.振荡器中的谐振电路采用多级串联谐振,电感采用微带线的形式,提高了谐振器的品质因数,进而降低了振荡器的相位噪声,且在谐振电路通过微带耦合方式实现了基频输出.基于GaAs异质结双极晶体管(HBT)工艺对振荡器进行了设计和流片,芯片尺寸为1.8 mm×1.4 mm.在5V工作电压和0～13 V调谐电压条件下,振荡器的输出频率为42.1～46.2 GHz,电流为120 mA,输出功率为1 dBm,1/2次谐波抑制大于15 dB,相位噪声为-60 dBc/Hz@10 kHz、-85 dBc/Hz@100 kHz和-105 dBc/Hz@1 MHz.     

Preparation and Characterization of TaN ALD Precursors

High purity organic-tantalum precursors for thin film ALD TaN were synthesized and characterized.Vapor pressure and thermal stability of these precursors were studied.From the vapor pressure analysis,it was found that TBTEMT has a higher vapor pressure than any other published liquid TaN precursor,including TBTDET,TAITMATA,and IPTDET.Thermal stability of the alkyl groups on the precursors was investigated using a 1H NMR technique.The results indicated that the tertbutylimino group is the most stable group on TBTDET and TBTEMT as compared to the dialkylamido groups.Thermal stability of TaN precursors decreased in the following order:TBTDET ＞ PDMAT ＞ TBTEMT.In conclusion,precursor vapor pressure and thermal stability were tuned by making slight variations in the ligand sphere around the metal center.     

Curved crystal spectrometer for the measurement of X-ray lines from laser-produced plasmas

In order to diagnose the laser-produced plasmas, a focusing curved crystal spectrometer has been developed for measuring the X-ray lines radiated from a laser-produced plasmas. The design is based on the fact that the ray emitted from a source located at one focus of an ellipse will converge on the other focus by the reflection of the elliptical surface. The focal length and the eccentricity of the ellipse are 1350 mm and 0.9586, respectively. The spectrometer can be used to measure the X- ray lines in the wavelength range of 0.2-0.37 nm, and a LiF crystal （200） （2d = 0.4027 nm） is used as dispersive element covering Bragg angle from 30° to 67.5°. The spectrometer was tested on Shengnang- Ⅱ which can deliver laser energy of 60-80 J/pulse and the laser wavelength is 0.35 μm. Photographs of spectra including the 1 s2p ^1P1-1s^2 ^1S0 resonance line（w）, the 1s2p ^3P2-1s^2 1S0 magnetic quadrupole line（x）, the 1s2p ^3P1-1 s^2 ^1S0 intercombination lines（y）, the 1 s2p ^3S~1-1 s^2 ^1S0 forbidden line（z） in helium-like Ti Ⅹ Ⅺ and the 1 s2s2p ^2P3/2-1 s622s ^2S1/2 line（q） in lithium-like Ti Ⅹ Ⅹhave been recorded with a X-ray CCD camera. The experimental result shows that the wavelength resolution（λ/△ 2） is above 1000 and the elliptical crystal spectrometer is suitable for X-ray spectroscopy.     

Cost-effective test solutions for smart card and other integrated flash applications

From its emergence in the late 1980s as a lower cost alternative to early EEPROM technologies, flash memory has evolved to higher densities and speedsand rapidly growing acceptance in mobile applications.In the process, flash memory devices have placed increased test requirements on manufacturers. Today, as flash device test grows in importance in China, manufacturers face growing pressure for reduced cost-oftest, increased throughput and greater return on investment for test equipment. At the same time, the move to integrated flash packages for contactless smart card applications adds a significant further challenge to manufacturers seeking rapid, low-cost test.     

An improved parallel thinning algorithm with two subiterations

The parallel thinning algorithm with two subiterations is improved in this paper. By analyzing the notions of connected components and passes, a conclusion is drawn that the number of passes and the number of eight-connected components are equal. Then the expression of the number of eight-connected components is obtained which replaces the old one in the algorithm. And a reserving condition is proposed by experiments, which alleviates the excess deletion where a diagonal line and a beeline intersect. The experimental results demonstrate that the thinned curve is almost located in the middle of the original curve connectivelv with single pixel width and the processing speed is high.     

Theoretical analysis of the relationship between the Brillouin gain coefficient and the strain in the optical-fiber sensors

The relation between the power of the Brillouin signal and the strain is one of the bases of the distributed fiber sensors of temperature and strain. The coefficient of the Bfillouin gain can be changed by the temperature and the strain that will affect the power of the Brillouin scattering. The relation between the change of the Brillouin gain coefficient and the strain is thought to be linear by many researchers. However, it is not always linear based on the theoretical analysis and numerical simulation. Therefore, errors will be caused if the relation between the change of the Brillouin gain coefficient and the strain is regarded as to be linear approximately for measuring the temperature and the strain. For this reason, the influence of the parameters on the Brillouin gain coefficient is proposed through theoretical analysis and numerical simulation.     

Novel fiber-optical interferometer with miniaturized probe for in-hole measurements

Today, micro-system technology and the development of new MEMS （Micro-Electro-Mechanical Systems） are emerging rapidly. In order for this development to become a success in the long run, measurement systems have to ensure product quality. Most often, MEMS have to be tested by means of functionality or destructive tests. One reason for this is that there are no suitable systems or sensing probes available which can be used for the measurement of quasi inaccessible features like small holes or cavities. We present a measurement system that could be used for these kinds of measurements. The system combines a fiber optical, miniaturized sensing probe with low-coherence interferometry, so that absolute distance measurements with nanometer accuracy are possible.     

Electronic Structure of Semiconductor Nanocrystals

This paper reviews our recent development of the use of the large-scale pseudopotential method to calculate the electronic structure of semiconductor nanocrystals, such as quantum dots and wires, which often contain tens of thousands of atoms. The calculated size-dependent exciton energies and absorption spectra of quantum dots and wires are in good agreement with experiments. We show that the electronic structure of a nanocrystal can be tuned not only by its size,but also by its shape. Finally,we show that defect properties in quantum dots can be significantly different from those in bulk semiconductors.     

Critical Stage Rule-Based Real Time Dispatch（RTD）System in Highly-Mixed-Products （HMP） FAB

An improving utilization and efficiency of critical equipments in semiconductor wafer fabrication facilities are concerned. Semiconductor manufacturing FAB is one of the most complicated and cost sensitive environments. A good dispatching tool will make big difference in equipment utilization and FAB output as a whole. The equipment in this paper is In-Line DUV Scanner. There are many factors impacting utilization and output on this equipment group. In HMP environment one of the issues is changing of reticule in this area and idle counts due to load unbalance between equipments. Here we'll introduce a rule-based RTD system which aiming at decreasing the number of recipe change and idle counts among a group of scanner equipment in a high-mixed-products FAB.     

GaAsSb/InAlAs PA DHBTs Grown by Production MBE

The epi material growth of GaAsSb based DHBTs with InAlAs emitters are investigated using a 4 × 100mm multi-wafer production Riber 49 MBE reactor fully equipped with real-time in-situ sensors including an absorption band edge spectroscope and an optical-based flux monitor. The state-of-the-art hole mobilities are obtained from 100nm thick carbon-doped GaAsSb. A Sb composition variation of less than ± 0.1 atomic percent across a 4 × 100mm platen configuration has been achieved. The large area InAlAs/GaAsSb/InP DHBT device demonstrates excellent DC characteristics,such as BVCEO＞6V and a DC current gain of 45 at 1kA/cm2 for an emitter size of 50μm × 50μm. The devices have a 40nm thick GaAsSb base with p-doping of 4. 5 × 1019cm-3 . Devices with an emitter size of 4μm × 30μm have a current gain variation less than 2% across the fully processed 100mm wafer. ft and fmax are over 50GHz,with a power efficiency of 50% ,which are comparable to standard power GaAs HBT results. These results demonstrate the potential application of GaAsSb/InP DHBT for power amplifiers and the feasibility of multi-wafer MBE for mass production of GaAsSb-based HBTs.     

Teleportation of an arbitrary unknown N-qubit entangled state under the controlling of M controllers

A new quantum protocol to teleport an arbitrary unknown N-qubit entangled state from a sender to a fixed receiver under M controllers(M < N) is proposed. The quantum resources required are M non-maximally entangled Greenberger-Home-Zeilinger (GHZ) state and N-M non-maximally entangled Einstein-Podolsky-Rosen (EPR) pairs. The sender performs N generalized Bell-state measurements on the 2N particles. Controllers take M single-particle measurement along x-axis, and the receiver needs to introduce one auxiliary two-level particle to extract quantum information probabilistically with the fidelity unit if controllers cooperate with it.