P. Bar, A. Giry, P. Triolet, G. Parat, D. Pache, P. Ancey, J. Carpentier
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引用次数: 4
摘要
为了进一步深入集成并理解射频集成电路中的寄生耦合机制,本文描述了与差分功率放大器(PA)协集成的射频前端直接转换接收器。它采用了基于体声波(BAW)技术的专用滤波功能。该电路完成了一个完整收发器的原型,该原型设计用于解决WCDMA FDD标准。该系统采用意法半导体(STMicroelectronics)的0.25 μ m BiCMOS技术,采用SiGe-C异质结双极晶体管(HBT)和NLDEMOS晶体管实现。BAW级间滤波器和抑制单元通过减少发射(TX) PA和接收(RX)路径之间的耦合机制来提高发射和接收频带之间的隔离。该电路已组装并测试,测量到RX链增益等于24 dB,并且在2.7 V电压下中频(D7)混频器输出具有超过40 dB的TX泄漏衰减。带BAW抑制滤波器的差分PA可提供高达28 dBm的线性输出功率。
Full-Duplex Receiver And PA Integration With BAW Devices
To go further into integration and to understand parasitic coupling mechanisms in RF integrated circuits, this article describes an RF front-end direct conversion receiver co-integrated with a differential power amplifier (PA). It uses dedicated filtering functions based on bulk acoustic wave (BAW) technology. This circuit performs a prototype of complete transceiver which has been designed to address WCDMA FDD standard. It is realized in a 0.25 mum BiCMOS technology from STMicroelectronics using SiGe-C heterojunction bipolar transistors (HBT) and NLDEMOS transistors. BAW inter-stage filter and reject-cell are designed to improve isolation between transmission and reception bands by reducing coupling mechanisms between transmitter (TX) PA and receiver (RX) path. This circuit has been assembled and tested, RX chain gain is measured to be equal to 24 dB and it has more than 40 dB TX leakage attenuation at intermediate frequency (D7) mixer output under a 2.7 V voltage supply. Differential PA with BAW reject filter delivers up to 28 dBm linear output power.
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