一种高集成LTCC射频前端电路

设计并制作了一种基于LTCC技术的系统级封装多通道射频前端电路。讨论了优化系统结构设计和LTCC材料选择,采用小信号S参数和谐波平衡法进行系统原理仿真设计,用三维电磁场法进行多层LTCC基板微波电路仿真分析。依托先进的LTCC制造工艺技术,该射频前端电路高密度集成了MMIC和CMOS芯片、贴片元件、多种形式的嵌入式滤波器以及控制线、微带线、带状线等元件,实现了微波信号放大、下变频和控制,具有体积小、重量轻、低噪声、低功耗、多通道的特点。该电路性能优良,增益62dB,噪声系数2.8dB,输入驻波比小于1.8,与采用混合集成电路技术的同类产品相比体积大幅度减小。     

LTCC及其在三维微波集成电路中的应用

介绍了用于三维微波集成电路(3D-MIC)的新技术LTCC(低温共烧陶瓷)的物理性能及主要特点;阐述了LTCC的制作工艺;重点讨论了基于LTCC的三维微波集成电路和内埋无源元件技术.     

一种新型LTCC天线的设计

通过分析Meander-line天线技术理论及LTCC天线结构理论,并结合返折理论技术,将返折Meander-line理论技术应用于LTCC天线。最终通过理论分析与仿真优化,设计了本天线单元,尺寸为18mm×3.8mm×1.2mm的天线模块。仿真结果显示,该天线具有较好的抗阻特性、较高的隔离度、良好的交叉极化比和较为稳定的方向图和增益。     

LTCC应用于大功率射频电路的可能性研究

通过介绍低温共烧陶瓷（LTCC）技术工艺及其优势，研究其在微电子工业特别是大功率RF电路中应用的可行性。     

LTCC多层宽带阵列天线设计

应用LTCC技术设计了4×4的宽带阵列天线,通过在多层贴片结构中引入空气腔、匹配过孔以及金属环等结构有效拓展天线的带宽,提高了辐射效率.馈电网络与主贴片间用内层地板分隔,有效地抑制了背向辐射.仿真结果表明,阵列天线在25.2-31.2GHz的频带内回波损耗低于-10dB,相对带宽达21.4%,峰值增益为16.84dB,...     

基于LTCC技术的WLAN射频前端的研制

采用低温共烧陶瓷(LTCC)集成技术,设计和制作了具有立体化新型结构的无线局域网(WLAN)射频前端,并对制得的产品模块进行了测试。结果表明:采用LTCC技术制得的WLAN射频前端的外形尺寸仅为29 mm×18 mm×5 mm,远小于传统同类型WLAN射频前端的尺寸。在2.4～2.5 GHz的工作频率范围内,所制WLAN射频前端的最大输出功率为27 dBm,噪声系数小于1.7 dB,接收增益大于15 dB,发射增益大于20 dB。     

耐高过载LTCC一体化LCC封装的研制

通过封装结构设计及其制造工艺流程和LTCC基板加工、围框与基板共晶焊接、平行缝焊封盖等制造工艺的研究,成功研制了适于多芯片、多元器件微电子模块的LTCC一体化LCC封装外壳,封装气密性满足国军标要求,能够达到抗25000g机械冲击应力的耐高过载水平。     

60 GHz SIW Steerable Antenna Array in LTCC

In this paper, we present a 60 GHz substrate-integrated waveguide fed-steerable low-temperature cofired ceramics array. The antenna is suitable for transmitting and receiving on the 60 GHz wireless personal area network frequency band. The wireless system can be used for HDTV, high-data-rate networking up to 4.5 GBit/s, security and surveillance, and similar applications.     

一种LTCC芯片天线研制

研制了一种新型的频率范围适用于GSM800/CDMA Cellular(824～960MHz)的全向芯片天线.该天线将曲折导线嵌入在LTCC介质中,采用通孔连接各层形成立体结构.通过分析天线的结构,给出了芯片天线的等效电路,并且进行仿真对比.该天线外形小巧,设计尺寸只有20.0mm×4.0mm×1.5mm.该芯片天线具有带宽大,全向性好,电气特性稳定等优点,适合应用于各种高灵敏度、低剖面的无线通信收发模块及移动通信终端.     

一种半导体激光器混合集成封装技术

介绍一种满足新型光网络传输要求的半导体激光器的混合集成封装技术,它集结构、光路、电路、软件及工艺等设计于一体,实现12路大功率光信号独立或同时发射,通过相关技术手段快速实现可调谐波长并能持续稳定工作.详细描述各单元架构以及最终的测试结果.     

基于版图级综合的频率部分空间映射神经 网络建模技术及其在LTCC射频电路中的应用

提出了基于电路版图级综合的频率部分空间映射神经网络建模的微波电路设计方法.将空间映射技术应用在神经网络建模中降低了神经网络的复杂程度,频率部分空间映射技术仅建立部分设计参数的映射,在确保一定准确度的前提下可以提高建模效率,减小神经网络拓扑结构的复杂性,使粗模型的参数提取时间以及神经网络的训练时间减少.空间映射技术中粗模型由版图级综合得到,基于全波分析的集总电路建模考虑寄生效应,具有一定的准确性和快速性,作为频率部分空间映射神经网络建模技术高质量的粗模型,从而提高了建摸的准确性和速度,增强建模的灵活性.在细模型的扫频中,采用S-B自适应采样技术可以进一步减少建模时间.本文用此方法设计低温共烧陶瓷滤波器,证明用这种方法建模快速、准确.     

Analysis and Application of 3-D LTCC Directional Filter Design for Multiband Millimeter-Wave Integrated Module

In this paper, we describe a systematic design and analysis procedure towards the successful implementation of 3-D low-temperature cofired ceramic (LTCC) multilayer loop directional filters at millimeter-wave frequencies. Directional filters represent a fundamental building block combining multiple filtering for mixing and multiplexing operations, hence reducing complexity while maintaining compactness. In this paper, different vertical coupling schemes are realized in order to implement the directional filters with the different performance optimums. The further use of the rectangular loop has been demonstrated as the optimum topology leading to the best performances. The filters have been measured to have less than 2.5-dB insertion loss in the bandpass path and higher than 25-dB rejection at 40 GHz, while occupying an area of 1.7times1.7 mm². They demonstrate 4.7%-6.3% fractional bandwidth with better than 20-dB isolation. 40-GHz multiplexers for multiband applications with 4-GHz/8-GHz frequency separations have been designed and measured to have approximately 3-dB insertion loss in each band with better than 20-dB isolation between the outputs in passbands. This is the first complete report on LTCC directional filter-based designs towards the system-on-package (SOP) solution for the multiband millimeter-wave wireless modules     

LTCC基板与封装的一体化制造

本文介绍了LTCC一体化基板/外壳封装的设计、制作与性能检测。     

LTCC基开关驱动低噪放一体化模块设计

基于LTCC技术设计了一款双通道应用的开关、驱动和低噪放一体化模块,利用HFSS对无源器件电感进行仿真,将电感嵌入LTCC基板中,不仅提高了模块的集成度,同时也降低了成本。在1.8~2.1 GHz频段内,ANT-RX通道增益达到23.8 dB,输入驻波比小于1.49,输出驻波比小于1.33,通道隔离大于44 dB,噪声系数小于1.21 dB(含评估板单端损耗约为0.15 dB);ANT-TX通道插入损耗小于0.42 dB(含评估版损耗约0.3 dB),输入输出驻波比均小于1.1。     

射频MEMS封装技术

MEMS在射频(RF)应用领域表现出的低功耗、低损耗和高数据率的优越特性为RF无线通信系统及其微小型化提供新的技术手段。在产品设计的初期阶段,RF MEMS封装的设计考虑是降低成本、提高产品合格率的有效途径。我们主要针对当前RF MEMS器件与电路设计制造中突出的问题——封装技术进行研究,指出封装在产品设计中的重要地位和技术实现方法,特别介绍了计算机仿真在RF MEMS器件与电路封装中的作用。     

Slot Antenna Array with Integrated Filter for WLAN Application at 5.2 GHz

This paper deals with the design of a \(2\times 2\) Integrated Filter Antenna array working at 5.2 GHz for IEEE 802.11a WLAN application. The filtering action is incorporated into the conventional antenna array, rendering enhanced selectivity and sharper gain roll-off than the conventional approach. An equivalent circuit model is extracted to validate the working of the proposed design. Fractional band width of \(3.0\%\) around 5.2 GHz (ranging between 5.15 and 5.31 GHz) and maximum gain of 11.11 dBi is obtained through this design.     

Reconfigurable RF MEMS Phased Array Antenna Integrated Within a Liquid Crystal Polymer (LCP) System-on-Package

For the first time, a fully integrated phased array antenna with radio frequency microelectromechanical systems (RF MEMS) switches on a flexible, organic substrate is demonstrated above 10 GHz. A low noise amplifier (LNA), MEMS phase shifter, and 2 times 2 patch antenna array are integrated into a system-on-package (SOP) on a liquid crystal polymer substrate. Two antenna arrays are compared; one implemented using a single-layer SOP and the second with a multilayer SOP. Both implementations are low-loss and capable of 12deg of beam steering. The design frequency is 14 GHz and the measured return loss is greater than 12 dB for both implementations. The use of an LNA allows for a much higher radiated power level. These antennas can be customized to meet almost any size, frequency, and performance needed. This research furthers the state-of-the-art for organic SOP devices.     

Integrated CMOS wideband oscillator for RF applications

A fully integrated LC oscillator with a tuning range of 800 MHz is presented. A combination of capacitive and inductive tuning has been used to produce the large tuning range with a low-gain control input. The phase noise at 1.9 GHz is as low as -120 dBc/Hz at 500 kHz offset. Possible applications include integer-N PLLs with a low level of reference spurs     

LTCC宽频圆极化环形微带贴片天线研究

设计了一种低温共烧陶瓷( LTCC)宽频带圆极化环形微带贴片天线.该天线采用环形辐射贴片结构,在环形内部利用L型匹配支节连接以拓展带宽.通过使用威尔金森功分器加移相器对辐射贴片馈电,使耦合馈电端口的正交电场相位差90.来实现微带天线的圆极化.该天线设计剖面厚度仅2.4 mm.仿真结果显示该天线工作于1.268 GHz时,实现阻抗带宽超过80 MHz,天线的轴比小于1.5 dB且增益达到4.9 dB.实测结果与仿真结果相近.