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JSSC 2011第1期Clocking & PLLs0.18μm CMOS

A7 6d B 1017 GHz 018 22m CMOS Tunable TIA Using Broadband Current Pre-Amplifier f

设计了一种适用于GHz振荡器的高增益可调跨阻放大器,采用宽带电流预放大技术。
76 dB-Ohm增益,1.7 GHz带宽,7.2 mW功耗
跨阻放大器GHz振荡器宽带预放大CMOS低噪声
宽带电流预放大技术:采用低功耗宽带电流预放大器与电流-电压转换级联设计,有效提升输入电流信号强度,支持高达1.7 GHz的工作频率,输入参考噪声低于10 pA/√Hz(100 MHz至1 GHz范围),属于电路创新。
高增益可调跨阻设计:通过反馈电压放大器与预放大器的协同优化,实现76 dB-Ohm的恒定跨阻增益,并适配高阻抗(50 kΩ)和大寄生电容(2 pF)的微机械谐振器负载,属于系统级架构创新。
低输入参考噪声优化:在1P6M 0.18μm CMOS工艺下,通过电流预放大器的噪声抑制技术和布局优化,将输入参考噪声控制在10 pA/√Hz以下,满足高频振荡器对相位噪声的严苛要求(如GSM/HSDPA标准),属于工艺与电路协同创新。
GHz级振荡器应用验证:首次将TIA与724 MHz/1.006 GHz压电微机械谐振器集成,实现相位噪声-156 dBc/Hz(@1 kHz偏移)和业界领先的品质因数(FoM),验证了其在2G/3G通信系统中的实用性,属于应用场景创新。
Abstract
ossein Miri Lavasani , Member , IEEE, Wanling Pan , Member , IEEE, Brandon Harrington , Member , IEEE, Reza Abdolvand, Member , IEEE, and Farrokh A yazi, Senior Member , IEEE Abstract—This paper reports on the design and characterization of a high-gain tunable transimpedance amplifier (TIA) suitable for gigahertz oscillators that use high- /81lateral micromechanical resonators with large motional resistance and large shunt parasitic capacitance. The TIA consists of a low-power broadband current p