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Design of a 4.2-5.4 GHz differential LC VCO using 0.35 mu m SiGeBiCMOS technology for IEEE 802.11a applications

机译：使用0.35μmSiGeBiCMOS技术为IEEE 802.11a应用设计4.2-5.4 GHz差分LC VCO

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摘要

In this paper, a 4.2-5.4 GHz, -Gm LC voltage controlled oscillator (VCO) for IEEE 802.11a standard is presented. The circuit is designed with AMS 0.35 mu m SiGe BiCMOS process that includes high-speed SiGe Heterojunction Bipolar Transistors (HBTs). According to post-layout simulation results, phase noise is -110.7 dBc/Hz at 1 MHz offset from 5.4 GHz carrier frequency and -113.4 dBc/Hz from 4.2 GHz carrier frequency. A linear, 1200 MHz tuning range is obtained from the simulations, utilizing accumulation-mode varactors. Phase noise was also found to be relatively low because of taking advantage of differential tuning concept. Output power of the fundamental frequency changes between 4.8 dBm and 5.5 dBm depending on the tuning voltage. Based on the simulation results, the circuit draws 2 mA without buffers and 14.5 mA from 2.5 V supply including buffer circuits leading to a total power dissipation of 36.25 mW. The circuit layout occupies an area of 0.6 mm(2) on Si substrate, including DC and RF pads.

机译：本文提出了一种用于IEEE 802.11a标准的4.2-5.4 GHz -Gm LC压控振荡器（VCO）。该电路采用AMS 0.35μmSiGe BiCMOS工艺设计，该工艺包括高速SiGe异质结双极晶体管（HBT）。根据布局后的仿真结果，相位噪声在5.4 GHz载波频率偏移1 MHz时为-110.7 dBc / Hz，而在4.2 GHz载波频率偏移为-113.4 dBc / Hz。利用累积模式变容二极管从仿真中获得线性1200 MHz调谐范围。由于利用了差分调谐概念，因此还发现相位噪声相对较低。基频的输出功率根据调谐电压在4.8 dBm至5.5 dBm之间变化。根据仿真结果，该电路在没有缓冲器的情况下汲取2 mA电流，从2.5 V电源（包括缓冲器电路）汲取14.5 mA电流，导致总功耗为36.25 mW。电路布局在Si基板（包括DC和RF焊盘）上占据0.6 mm（2）的面积。

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Esame İbrahim Onur; Esame Ibrahim Onur; Tekin İbrahim; Tekin Ibrahim; Bozkurt Ayhan; Gürbüz Yaşar; Gurbuz Yasar;
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年度 2007
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1. Design of a 4.2-5.4 GHz Differential LC VCO Using 0.35 μm SiGe BiCMOS Technology for IEEE 802.11a Applications [J] . Onur Esame, Ibrahim Tekin, Ayhan Bozkurt, International journal of RF and microwave computer-aided engineering . 2007,第2期

机译：使用0.35μmSiGe BiCMOS技术针对IEEE 802.11a应用设计4.2-5.4 GHz差分LC VCO
2. Design of Low Phase Noise SIPC based Complementary LC-QVCO for IEEE 802.11a Application | Science Publications [J] . Harikrishnan Ramiah, Tun Zainal Azni Zulkifli American journal of applied sciences . 2008,第2期

机译：IEEE 802.11a应用的基于低相位噪声SIPC的互补LC-QVCO设计|科学出版物
3. Design of a tunable multi-band differential LC VCO using 0.35 μm SiGe BiCMOS technology for multi-standard wireless communication systems [J] . Ahmet Kemal Bakkaloglu, Arzu Ergintav, Emre Ozeren, Microelectronics journal . 2009,第6期

机译：使用0.35μmSiGe BiCMOS技术的可调谐多频带差分LC VCO的设计，用于多标准无线通信系统
4. Design of a 4.2-5.4 GHz LC VCO for IEEE 802.11a Applications [C] . Onur Esame, Ibrahim Tekin IEEE Signal Processing and Communications Applications . 2006

机译：用于IEEE 802.11a应用的4.2-5.4 GHz LC VCO的设计
5. 10 GHz LC VCOs for high-speed serial data communication ICs. [D] . Baig, Mirza Mashkoor Ahmed. 2004

机译：用于高速串行数据通信IC的10 GHz LC VCO。
6. Application of Receptor Theory to the Design and Use of Fixed-Proportion Mu-Opioid Agonist and Antagonist Mixtures in Rhesus Monkeys [O] . Jeremy C. Cornelissen, Samuel Obeng, Kenner C. Rice, -1

机译：受体理论在恒河猴固定比例Mu类阿片激动剂和拮抗剂混合物的设计和使用中的应用
7. IEEE 802.11a uygulamaları için 4.2-5.4 GHz LC gerilim kontrollü Osilatör tasarımı (Design of a 4.2-5.4 GHz LC VCO for IEEE 802.11a applications) [O] . Esame İbrahim Onur, Esame Ibrahim Onur, Tekin İbrahim, 2006

机译：针对IEEE 802.11a应用的4.2-5.4 GHz LC压控振荡器设计（针对IEEE 802.11a应用的4.2-5.4 GHz LC VCO的设计）

Design of a 4.2-5.4 GHz differential LC VCO using 0.35 mu m SiGeBiCMOS technology for IEEE 802.11a applications

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