← 返回 JSSC 论文列表JSSC 2006第1期RF & Wireless0.25μmNeural Network Accelerator
Monolithic Above-IC Resonator Technology for Integrated Architectures in Mobile
本文展示了在0.25μm BiCMOS晶圆上集成双晶格体声波滤波器的可行性。
插入损耗3dB,带外抑制50dB
体声波滤波器BiCMOSWCDMARF前端宽带放大器
▸创新点1:双晶格体声波滤波器设计(方法创新):采用双晶格结构设计BAW滤波器,显著提升了滤波器的频率选择性和带外抑制能力,实现了大于50 dB的带外抑制,适用于高精度无线通信系统。
▸创新点2:平衡输入输出结构(电路创新):设计了平衡输入输出结构,有效降低了信号传输中的噪声和干扰,提高了滤波器的整体性能,插入损耗仅为3 dB,适用于高灵敏度的RF前端接收器。
▸创新点3:简化RF前端接收器(系统创新):将BAW滤波器直接集成在0.25μm BiCMOS晶圆上,简化了RF前端接收器的结构,降低了系统复杂性和成本,同时保持了高性能,适用于WCDMA标准。
▸创新点4:新型滤波LNA设计(系统创新):结合两个宽带放大器和BAW滤波器,设计了一种新型滤波LNA,实现了信号放大和滤波的一体化,提高了系统的集成度和性能,适用于移动通信设备。
Abstract
This paper demonstrates the feasibility of an above-
IC bulk acoustic wave technology for wireless applications. A
double-lattice bulk acoustic wave (BA W) filter with balanced input
and output has been designed and integrated as a post-process
directly above 0.25
m BiCMOS wafers comprising RF circuits.
This filter, featuring moderate insertion loss of
3 dB and ex-
treme out-of-band rejection (
50 dB) is used in a simplified
RF front-end receiver for the WCDMA standard, as well as in a
new type o