A novel stopband-enhanced EBG planes using an Embedded Slow-wave Structure in Low-cost RF-SiP

机译：使用低成本RF-SIP的嵌入式慢波结构的新型停车增强的EBG平面

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Based on the slow-wave concept, an EBG power planes with stopband enhancement is proposed by using ground surface perturbation lattice (GSPL) between the coplanar EBG power and ground planes. This structure has 73% and 100% stopband enhancement, respectively, compared to the conventional coplanar and mush-room typed EBG planes. A test sample of 16 unit-cells on a 40mm square substrate is fabricated with 4 GHz stopband and is validated both by simulation and experiment. It is a low-cost design in SiP because no high-K material is required. Two test chips, C-band LNA (5.6GHz) and off-chip digital drivers (1.3GHz), is designed and integrated on the EBG substrate. In the chip-package co-simulation, over 40dB suppression for the 1.3GHz harmonics noise on the LNA output is seen for the proposed EBG planes.

机译：基于慢波概念，通过在共面eBG电力和地面平面之间使用地面扰动晶格（GSPL）来提出具有阻带增强的EBG电力平面。与传统的共面和糊状室类型的EBG平面相比，这种结构分别具有73％和100％的阻带增强。在40mm方形基板上的16个单元电池的测试样品用4GHz阻带制造，并通过模拟和实验进行验证。它是SIP中的低成本设计，因为不需要高k材料。两个测试芯片，C频段LNA（5.6GHz）和片外数字驱动器（1.3GHz）设计并集成在EBG基板上。在芯片包装共模中，对于所提出的EBG平面，可以看到LNA输出上的1.3GHz谐波噪声超过40dB抑制。

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《IEEE-EPEP Electrical Performance of Electronic Packaging》|2008年||共4页
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作者
Chia-Yuan Hsieh; Hao-Hsiang Chuang; Ting-Kuang Wang; Chen-Chao Wang; Hung-Hsiang Cheng; Yei-Shen Wu; Chi-Tsung Chiu; Chih-Pin Hung; Tzong-Lin Wu;
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中图分类 TN305.4-53;
关键词
EBG; Power integrity; RF-SiP;

机译：EBG;电力完整性;RF-SIP;

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专利

1. Model and Mechanism of Miniaturized and Stopband-Enhanced Interleaved EBG Structure for Power/Ground Noise Suppression [J] . Wang C.-D., Wu T.-L. Electromagnetic Compatibility, IEEE Transactions on . 2013,第1期

机译：用于功率/地面噪声抑制的小型化和阻带增强交错式EBG结构的模型和机理
2. Design and Modeling of a Stopband-Enhanced EBG Structure Using Ground Surface Perturbation Lattice for Power/Ground Noise Suppression [J] . Ting-Kuang Wang, Chia-Yuan Hsieh, Hao-Hsiang Chuang, Microwave Theory and Techniques, IEEE Transactions on . 2009,第8期

机译：利用地表扰动格抑制功率/地面噪声的阻带增强EBG结构的设计与建模
3. Analytical Design of Via Lattice for Ground Planes Noise Suppression and Application on Embedded Planar EBG Structures [J] . Huang C.-H., Wu T.-L. Components, Packaging and Manufacturing Technology, IEEE Transactions on . 2013,第1期

机译：地平面噪声抑制的过孔格分析设计及其在嵌入式平面EBG结构中的应用
4. A novel stopband-enhanced EBG planes using an Embedded Slow-wave Structure in Low-cost RF-SiP [C] . Chia-Yuan Hsieh, Hao-Hsiang Chuang, Ting-Kuang Wang, IEEE-EPEP Electrical Performance of Electronic Packaging . 2008

机译：使用低成本RF-SIP的嵌入式慢波结构的新型停车增强的EBG平面
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A novel stopband-enhanced EBG planes using an Embedded Slow-wave Structure in Low-cost RF-SiP

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