Your search keyword '"Xiao, Xianghua"' showing total 3 results

1. Band Pass Filter Design and Optimization on High-Resistivity Silicon for 5GHz RF Front End Receiver

Author

Y. Tsuchiya, Zhou Jinchang, Xiao Xianghua, Y. Mano, Khoo Yee Mong, K. Nagaya, Liu Shiguo, and Li Hongyu

Subjects

Surface-mount technology, Engineering, RF front end, business.industry, Electrical engineering, Inductor, law.invention, Capacitor, Band-pass filter, law, Filter (video), Hardware_INTEGRATEDCIRCUITS, Miniaturization, business, High-κ dielectric

Abstract

Low-cost and compact size is endlessly requested by new wireless and mobile communication systems. These requirements are critical for some specific application such as bandpass filter(BPF). Most of today embedded filters in SIP are made on low temperature co-fired ceramics (LTCC) technology, which eliminates Surface Mount Technology (SMT) and reduces the size of the filter. While LTCC filter can reduce the lateral size due to relatively high dielectric constant, it may not represent the most economical solution. Due to the increasing complexity and miniaturization of today's wireless products, the radio subsystems are being driven to very aggressive trends in advanced silicon processes for its process maturity, miniaturization. In this paper, a flowchart for RF BPFs design on silicon wafer from single inductor, capacitor to BPF optimization has been presented and proved. Two test vehicles for 5 GHz Wifi BPF are fabicated and characterized on six high-resistivity silicon (HR) wafers. Wide bandpass filter size at 0.9 mm times 1.4 mm and narrow bandpass filter size at 1.2 mm times 1.66 mm are realized. The preliminary measurement results are shown in the following.

Published

2008

2. Band Pass Filter Design and Optimization on High-Resistivity Silicon for 5GHz RF Front End Receiver.

Author

Zhou Jinchang, Xiao Xianghua, Liu Shiguo, Nagaya, K., Tsuchiya, Y., Mano, Y., Khoo Yee Mong, and Li Hongyu

Published

2008

3. High Quality and Low Loss Millimeter Wave Passives Demonstrated to 77-GHz for SiP Technologies Using Embedded Wafer-Level Packaging Platform (EMWLP).

Author

Lim, Ying Ying, Xiao, Xianghua, Vempati, Srinivasa Rao, Su, Nandar, Kumar, Aditya, Sharma, Gaurav, Lim, Teck Guan, Vaidyanathan, Kripesh, Shi, Jinglin, Lau, John H., and Liu, Shiguo

Subjects

*ELECTRONIC packaging, *SEMICONDUCTOR wafers, *INTEGRATED circuits, *BANDPASS filters, *ELECTRIC lines, *CAPACITORS, *MILLIMETER waves

Abstract

With the increasing demand for system integration to cater to continuously increasing number of I/Os as well as higher operating frequencies, reconfigured wafer-level packaging, or embedded WLP (EMWLP) is emerging as a promising technology for integration. This platform allows integrated passives to be designed in the redistribution layers using the mold compound as a substrate, which significantly improves the passives performance compared to those of on-chip. In this paper, we present low loss passives on EMWLP platform demonstrated in a 5.5-GHz band pass filter targeted for wireless local area network (WLAN) applications. To ascertain the feasibility of designing for low loss millimeter wave passives on EMWLP, transmission lines were designed and their loss characteristics investigated up to 110 GHz, which are reported here. Subsequently we demonstrate for the first time a narrowband low loss 77-GHz band pass filter on EMWLP platform, with a good correlation obtained between simulation and measurement results. In addition, a temperature dependence characterization was performed on the 77-GHz filter, with little variation in the measured filter characteristics observed. [ABSTRACT FROM AUTHOR]

Published

2010