Introduce the key manufacture technology and control of LTCC substrate.
本文介绍了LTCC基板制造的关键技术和性能控制。
Modeling still remains a major bottleneck for efficient LTCC circuits CAD technique.
建模方法一直是LTCC电路计算机辅助设计技术的主要瓶颈。
LTCC technology can make spiral inductance with many layers and reduce the size greatly.
采用LTCC技术可以制作多层螺旋电感,大大减小电感的尺寸。
A novel spiral inductor resonator bandpass filter based on LTCC is proposed in this paper.
本文提出一种新型的基于低温共烧陶瓷技术(LTCC)的螺旋电感带通滤波器。
Modeling and analysis, optimization, and synthesis are the issues in design of LTCC filters.
而建模分析和优化综合是叠层ltcc滤波器设计的关键。
The RF part of mobile phone has a lot of passive devices, so FEM becomes of a typical LTCC device.
由于手机射频前端部分含有大量无源元件,FEM成为利用LTCC的典型器件。
A system in package(SIP) RF front-end based on LTCC technology was designed, fabricated and tested.
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。
The spiral pulse generator comprises two parts which are manufactured jointly as an LTCC component.
该螺旋体脉冲发生器包括两个低温共烧陶瓷部件共同制成的部分。
The merits and defeds of different borosilicate glasses, its application field in LTCC technology were indicated.
指出了不同硼硅酸盐玻璃材料的优缺点和在低温共烧陶瓷技术中的适用范围。
We designed and fabricated LTCC power module on the basis of solving a series of difficult problems about technology.
在解决了一系列工艺难题的基础上研制出了LTCC功放模块。
The practical realization of this filter makes use of the LTCC technology that is popular in the design of RF devices.
滤波器的实际实现采用在当今射频通信器件设计中流行的LTCC技术。
This dissertation focuses on novel Bluetooth antenna and filter in LTCC technology and the neural network-aided design of them.
本文核心研究LTCC新颖结构蓝牙天线和滤波器的设计及其神经网络辅助设计。
Realization and progression of LTCC depends on two key joints of flow casting and low temperature co-fired ceramic in great degree.
LTCC技术的实现和进步很大程度上依赖于流延和低温共烧陶瓷这两个关键环节。
LTCC is very suitable to be used in miniature antenna due to its high performance in microwave such as low medium loss, high Q, etc.
LTCC以高耐温性、高热传导率、高耐湿性、低介质损耗、优良的高频高q特性等特点,非常适于作为小型化天线的材料。
The final quality of packaging was decided by the substrate material. So, study about the material effected the history of the LTCC.
LTCC基板材料的性能决定最终封装的质量,故基板材料的研究在LTCC的进展中发挥了重要作用。
Realization and progression of LTCC depends on two key joints of flow casting and low temperature co - fired ceramic in great degree.
LTCC技术的实现和进步很大程度上依赖于流延和低温共烧陶瓷这两个关键环节。
The final quality of packaging is decided by the substrate material. Therefore, study on the material effects the history of the LTCC.
LTCC基板材料的性能决定封装的质量,材料的研究在LTCC的进展中发挥了重要作用。
In this paper, the research works on design and process technology of mix-integrated power module based on LTCC technology are focused.
本文针对基于LTCC技术实现混合集成电源模块的设计和工艺技术进行了相关的研究工作。
Then based on the research of the lumped parameter circuit of the microwave filter, a novel LC type LTCC Bluetooth filter is presented.
同时以微波滤波器集总参数电路研究为基础和指导,设计了一款新颖结构的LC型LTCC蓝牙滤波器。
Thirdly, dual-mode filter miniaturization designs with LTCC (Low Temperature Co-fired Ceramic) multi-layer structure were studied in this thesis.
再次,本文研究了LTCC多层结构的小型化双模滤波器。
A novel feeding system of Tilt-shaped strip line which is very similar to three-dimensional helical structure is proposed to design LTCC Bluetooth antenna.
在LTCC蓝牙天线的设计中,提出一种类似于立体螺旋结构的斜体立体式馈电系统。
Technics of LTCC MLB processing using thin film circuit technology, ink-jet printing, laser drilling, and conventional manufacturing methods is introduced.
概述了综合运用薄膜线路技术、喷墨打印技术和激光钻孔技术以及采用常规技术制作LTCC基板的简要工艺。
Low Temperature Co fired Ceramics (LTCC) is an excellent packaging technique for achieving highly reliable and miniature microwave multichip modules (MMCM).
低温共烧陶瓷(LTCC)是实现小型化、高可靠微波多芯片组件(MMCM)的一种理想的组装技术。
Low Temperature Co-fired Ceramics (LTCC) is an excellent packaging technique for achieving highly reliable and miniature microwave multi-chip modules (MMCM).
低温共烧陶瓷(LTCC)是实现小型化、高可靠微波多芯片组件(MMCM)一种理想的组装技术。
LTCC is the important composite of modern microelectronic packaging. The perfect properties make it useful widely in the high-speed and high-frequency system.
LTCC是现代微电子封装中的重要组成部分,因性能优良而广泛应用于高速、高频系统。
Therefore, our study on the transmission performances and transitions of millimeter-wave transmission lines of LTCC will have important practical significance.
所以对LTCC毫米波传输线的传播性能和过渡结构的研究将有着重要的实际意义。
Instant invention is about a micro chip comprising plurality of layers of LTCC wherein a reaction chamber is formed in plurality of top layers to load samples.
本发明涉及一种包含多个LTCC层的微芯片,其中反应室在多个顶层中形成以装载样品。
The newly developed low loss, low dielectric constant and low temperature co fired ceramics (LTCC) materials are the best substrate for microwave MCM technology.
新开发的低损耗、低介电常数的低温共烧陶瓷(LTCC)材料最适合做微波mcm的基板材料。
Finally, bias circuits are designed for the S-band radar receiver LTCC module, the layout and simulated validation are carried out with the LTCC technics requirement.
最后针对S波段接收机前端设计了偏置电路,并按LTCC工艺要求对该接收机前端进行了布局布线和最后的仿真验证。
Finally, bias circuits are designed for the S-band radar receiver LTCC module, the layout and simulated validation are carried out with the LTCC technics requirement.
最后针对S波段接收机前端设计了偏置电路,并按LTCC工艺要求对该接收机前端进行了布局布线和最后的仿真验证。
应用推荐