增益与光强的相关系数对光栅外腔半导体激光器稳态特性的影响

本文引入增益与光强的相关系数h,建立了光栅外腔半导体激光器的稳态模型。数值计算结果表明:激光器的其它参数必须与h相匹配,才能使激光输出的稳定区增大,且可在一定波长范围内进行选频,保证很好的单模性。     

Efficient electron transport in 4,4′-bis[N-(1-napthyl)-N-phenyl-amino] biphenyl and the applications in white organic light emitting devices

The electron transport capability of 4,4′-bis[N-(1-napthyl)-N-phenyl-amino] biphenyl (α-NPD) was investigated by fundamental physical measurements named as current–voltage (I–V) electrical property evaluation and displacement current measurement (DCM). In electron-dominated devices, the I–V characteristics of α-NPD were similar as that of (8-hydroxyquinolino) aluminum (Alq₃) owing to their same order of electron mobilities. The interface of Al/LiF and α-NPD was proven to be an Ohmic contact through the evaluation of I–V characteristics at low bias regime (<3 V). And an electron injection barrier, 0.21 eV, at Al/LiF/α-NPD was obtained by extrapolating the temperature dependent I–V curves. The electron transport behavior in α-NPD film was further confirmed by DCM evaluations. Furthermore, an efficient white organic light emission device was successfully fabricated by using α-NPD as hole transport layer and electron transport layer, respectively.     

Real-time teleconsultation with high-resolution and large-volumemedical images for collaborative healthcare

Real-time consultation between referring physicians or radiologists with an expert is critical for timely and adequate management of problem cases. During consultation, both sides need to: 1) synchronously manipulate high-resolution digital radiographic images or large volume MR/CT images; 2) perform interpretation interactively; and 3) converse with audio. We present a specifically designed teleconsultation system in a digital imaging and communication in medicine picture archiving and communication systems (PACS) clinical environment. The system uses bidirectional remote control technology to meet critical teleconsultation application requirements with high-resolution and large-volume medical images operated in a limited bandwidth network setting. We give the system design and implementation methods, and also describe the teleconsultation procedure and protocol used in this system. Finally, laboratory and clinical evaluation results are discussed     

WCDMA网络容量优化策略研究

容量分析是WCDMA无线网络规划优化中的一个重要课题。从限制高比特用户覆盖范围以及调整公共信道功率两个角度探讨其对容量分析的影响,旨在为WCDMA无线网络规划优化提供决策参考。     

Low-complexity detection based on maximum cumulative measure and Laurent decomposition for multi-h CPM signal

In order to solve the problem of high computational complexity in demodulation for multi-h continuous phase modulation(CPM) signal, a maximum cumulative measure combing with the Laurent decomposition(MCM-LD) scheme is proposed to reduce the number of the grid states and the required number of matched filters, which degrades the demodulation complexity at the receiver.The advanced range telemetry(ARTM) Tier Ⅱ CPM signal is adopted to evaluate the performance in simulation. The results show that, ...     

公共建筑空调系统节能设计浅析

公共建筑空调系统能耗在建筑能耗中占的比重相当大,因此,公共建筑空调系统的节能对于节能减排有非常重要的意义。从公共建筑空调系统的设计角度分析空调系统节能的方法,提出了降低公共建筑空调系统能耗的节能设计方法。     

高铁规划要点及测试情况分析

从理论分析、实地测试2个方面同时入手,针对郑西高铁测试过程中发现的问题提出了解决思路和实施方案,并给出了高铁规划中的一些技术要点.     

W频段二次谐波I/Q调制混频器的设计

基于自主研发GaAs肖特基二极管（SBD）设计了一款工作于W频段的二次谐波混频器,实现了对射频（RF）信号的I/Q调制。建立了二极管模型,利用电路结构走线长度控制信号流,实现了宽频带内的射频信号混频,并基于此通过HFSS和ADS联合仿真,完成了W频段二次谐波混频器设计。测试结果显示,采用45 GHz信号作为本振信号源,射频80~89 GHz与91~100 GHz的频带范围内变频损耗低于17 dB,最低变频损耗为12 dB;1 dB压缩功率大于11 dBm。仿真结果显示,80~89 GHz与91~100 GHz的镜频抑制效果明显,最好频点镜像抑制达到20 dB。相比于W频段GaAs pHEMT（赝晶型高电子迁移率晶体管）混频器,所设计的GaAs肖特基二极管混频器在较低变频损耗的情况下,具有工艺简单、易实现、高线性度、宽带匹配、高镜像抑制等优点,芯片尺寸仅为1 mm×1 mm。该款W频段混频器达到了目前国内较高水平。     

A Study of the Parasitic Properties of the Schottky Barrier Diode

In this paper, we present a newly designed parameter extraction method of the Schottky barrier diode (SBD) with the purpose of measuring and studying its parasitic properties. This method includes three kinds of auxiliary configurations and is named as three-configuration parameter extraction method (TPEM). TPEM has such features as simplicity of operation, self-consistence, and accuracy. With TPEM, the accurate parasitic parameters of the diode can be easily obtained. Taking a GaAs SBD as an example, the pad-to-pad capacitance is 7 fF, the air-bridge finger self-inductance 11 pH, the air-bridge finger self-resistance 0.6 Ω, and the finger-to-pad capacitance 2.1 fF. A more accurate approach to finding the value of the series resistant of the SBD is also proposed, and then a complete SBD model is built. The evaluation of the modeling technology, as well as TPEM, is implemented by comparing the simulated and measured I-V curves and the S-parameters. And good agreements are observed. By using TPEM, the influence of the variation of the geometric parameters is studied, and several ways to reduce the parasitic effect are presented. The results show that the width of the air-bridge finger and the length of the channel are the two largest influencing parameters, with the normalized impact factors 0.56 and 0.29, respectively. By using TPEM and the modeling technology presented in this paper, a design process of the SBD is proposed. As an example, a type of SBD suitable for 500–600 GHz zero-biased detection is designed, and the agreement between the simulated and measured results has been improved. SBDs for other applications could be designed in a similar way.