1 A Low Power CMOS Low Noise Amplifier for Ultra-wideband Wireless Applications 指導教授 : 林志明學生 : 黃世一

Slides:

Advertisements

Similar presentations

Ultra Low Power RF Section of a Passive Microwave RFID Transponder in 0.35 μm BiCMOS Giuseppe De Vita, Giuseppe Iannaccone Dipartimento di Ingegneria dell’Informazione:

Advertisements

Abstract — In this paper, A GHz Ultra-wideband (UWB) low-voltage low-noise amplifier (LNA) employing only one – stage cascoded topology is presented.

Design of RF CMOS Low Noise Amplifiers Using a Current Based MOSFET Model Virgínia Helena Varotto Baroncini Oscar da Costa Gouveia Filho.

Low Power RF/Analog Amplifier Design Tong Zhang Auburn University Tong Zhang Auburn University.

An Integrated Solution for Suppressing WLAN Signals in UWB Receivers LI BO.

A Wideband Low Power VCO for IEEE a

A CMOS Low Power Current-Mode Polyphase Filter By Hussain Alzaher & Noman Tasadduq King Fahd University of Petroleum & Minerals KFUPM, Department of Electrical.

An Ultra-Wideband CMOS Low Noise Amplifier for 3–5-GHz UWB System

RF CMOS LC-Oscillator With Source Damping Resistors 指導教授 : 林志明學生 : 劉彥均 Seok-Ju Yun, Chong-Yul Cha, Hyoung-Chul Choi, and Sang-Gug Lee IEEE MICROWAVE AND.

A Dynamic GHz-Band Switching Technique for RF CMOS VCO

 The output from a single amplifier is generally insufficient to drive an output device. In other words, the gain of a single amplifier is inadequate.

1 Wideband LNA for a Multistandard Wireless Receiver in 0.18μm CMOS 指導教授 : 林志明學生 : 黃世一

ANALOGUE ELECTRONICS II

1 A 0.6V ULTRA LOW VOLTAGE OPERATIONAL AMPLIFIER 指導教授：林志明所長指導學生：賴信吉：彰師大積體電路設計研究所.

An Ultra-Wideband CMOS VCO with 3~5GHz Tuning Range 指導教授 : 林志明教授學生 : 劉彥均 RFIT IEEE International Workshop on Radio-Frequency Integration Technology,

1 A Low-Voltage Folded- Switching Mixer in 0.18-um CMOS Vojkan Vidojkovic, Johan van der Tang, Member, IEEE, Arjan Leeuwenburgh, andArthur H. M. van Roermund,

1 姓名 : 李國彰指導教授 : 林志明老師 A 1v 2.4GHz CMOS POWER AMPLIFIER WITH INTEGRATED DIODE LINEARIZER ( The 2004 IEEE Asia-Pacific Conference on Circuits and Systems,

Design of LNA at 2.4 GHz Using 0.25 µm Technology

Study of 60GHz Wireless Network & Circuit Ahn Yong-joon.

An Ultra-Wide-Band GHz LNA in 0.18µm CMOS technology RF Communication Systems-on-chip Spring 2007.

Design of a GHz Low-Voltage, Low-Power CMOS Low-Noise Amplifier for Ultra-wideband Receivers Microwave Conference Proceedings, APMC 2005.

S. -L. Jang, Senior Member, IEEE, S. -H. Huang, C. -F. Lee, and M. -H

A 12-bit, 300 MS CMOS DAC for high-speed system applications

Presenter: Chun-Han Hou ( 侯鈞瀚)

NTU GIEE NanoSiOE 1 Strain-enhanced Device and Circuit for Optical Communication System 指導教授：劉致為博士學生：余名薪台灣大學電子工程學研究所.

A 1.5-V 6-10-GHz Low LO-Power Broadband CMOS Folded-Mirror Mixer for UWB Radio H.-W. Chung, H.-C. Kuo, and H.-R. Chuang Institute of Computer and Communication.

1 學生 : 李國彰指導教授：林志明 A Fully Matched High Linearity 2- w PHEMT MMIC Power Amplifier for 3.5 GHz Application ( IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS,

Design of a 10 Bit TSMC 0.25μm CMOS Digital to Analog Converter Proceedings of the Sixth International Symposium on Quality Electronic Design IEEE, 2005.

A New RF CMOS Gilbert Mixer With Improved Noise Figure and Linearity Yoon, J.; Kim, H.; Park, C.; Yang, J.; Song, H.; Lee, S.; Kim, B.; Microwave Theory.

1 A Low Spur Fractional-N Frequency Synthesizer Architecture 指導教授 : 林志明教授學生 : 黃世一 Circuits and Systems, ISCAS IEEE International Symposium.

18/10/20151 Calibration of Input-Matching and its Center Frequency for an Inductively Degenerated Low Noise Amplifier Laboratory of Electronics and Information.

A 1 Volt CMOS Pseudo Differential Amplifier Apirak Suadet and Varakorn Kasemsuwan Department of Electronics, Faculty of Engineering, King Mongkut's Institute.

A 90nm CMOS Low Noise Amplifier Using Noise Neutralizing for GHz UWB System 指導教授：林志明教授級別：碩二學生：張家瑋 Chao-Shiun Wang; Chorng-Kuang Wang; Solid-State.

1 A CMOS 5-GHz Micro-Power LNA 指導教授 : 林志明教授學生 : 黃世一 Hsieh-Hung Hsieh and Liang-Hung Lu Department of Electrical Engineering and Graduate Institute of.

指導教授：林志明老師研究生：林高慶學號：s

A High-Gain, Low-Noise, +6dBm PA in 90nm CMOS for 60-GHz Radio

8GHz, lV, High Linearity, Low Power CMOS Active Mixer Farsheed Mahrnoudi and C. Andre T. Salama The Edward S. Rogers Sr. Department of Electrical & Computer.

CommunicationElectronics Principles & Applications Third Edition Chapter 6 Radio Transmitters ©2001 Glencoe/McGraw-Hill Louis E. Frenzel.

DESIGN OF LOW POWER CURRENT-MODE FLASH ADC

系所:積體電路設計研究所指導教授:林志明學生:鄭士豪

1 A Frequency Synthesizer Using Two Different Delay Feedbacks 班級：積體所碩一學生：林欣緯指導教授：林志明教授 Circuits and Systems, ISCAS IEEE International Symposium.

1 Successive Approximation Analog-to- Digital Conversion at Video Rates 指導教授：汪輝明學生：陳柏宏.

Phan Tuan Anh Dec Reconfigurable Multiband Multimode LNA for LTE/GSM, WiMAX, and IEEE a/b/g/n 17 th IEEE ICECS 2010, Athens, Greece.

A NEW METHOD TO STABILIZE HIGH FREQUENCY HIGH GAIN CMOS LNA RF Communications Systems-on-chip Primavera 2007 Pierpaolo Passarelli.

An Ultra-low Voltage UWB CMOS Low Noise Amplifier Presenter: Chun-Han Hou ( 侯鈞瀚 ) 1 Yueh-Hua Yu, Yi-Jan Emery Chen, and Deukhyoun Heo* Department of.

1 Your Name Your Department or Company Date, 2015.

A Low-Voltage CMOS Rail-to-Rail Operational Amplifier Using Double P-Channel Differential Input Pairs 指導教授：林志明老師研究生：賴信吉 MAIL ：

Sanae Boulay, Limelette, Nov 05 th 20091/20 S. Boulay, B. Boudjelida, A. Sharzad, N. Ahmad, M. Missous Novel Ultra Low Noise Amplifiers based on InGaAs/InAlAs.

1 Ultra-broadband 20.5 – 31 GHz monolithically-integrated CMOS power amplifier 指導教授 : 林志明教授學生 : 劉彥均 A. Vasylyev, P. Weger and W. Simbu¨rger, ELECTRONICS.

A Tail Current-Shaping Technique to Reduce Phase Noise in LC VCOs 指導教授 : 林志明教授學生 : 劉彥均 IEEE 2005CUSTOM INTEGRATED CIRCUITS CONFERENCE Babak Soltanian.

RFIC – Atlanta June 15-17, 2008 RMO1C-3 An ultra low power LNA with 15dB gain and 4.4db NF in 90nm CMOS process for 60 GHz phase array radio Emanuel Cohen.

A Linearized Cascode CMOS Power Amplifier 指導教授：林志明老師研究生：林高慶學號： Ko, Sangwon; Lin, Jenshan; Wireless and Microwave Technology Conference, 2006.

A HIGH-SPEED LOW-POWER RAIL-TO-RAIL BUFFER AMPLIFIER FOR LCD APPLICATION C-W Lu; Xiao, P.H.; Electrical and Computer Engineering, Canadian Conference on.

1 A Cost-Efficient High-Speed 12- bit Pipeline ADC in 0.18-m Digital CMOS Terje Nortvedt Andersen, Bj ø rnar Hernes, Member, IEEE, Atle Briskemyr, Frode.

學生 : 李國彰指導教授 : 賴永齡老師 A 1.5V 2.4GHz CMOS Mixer with high linearity ( The 2004 IEEE Asia-Pacific Conference on Circuits and Systems, December 6-9, 2004.

A Unified Approach to Design Distributed Amplifiers Rasit Onur Topaloglu PhD. Student

A 2.4-GHz 0.18-um CMOS Self-Biased Cascode Power Amplifier

Introduction LNA Design figure of merits: operating power consumption, power gain, supply voltage level, noise figure, stability (Kf & B1f), linearity.

Rakshith Venkatesh 14/27/2009. What is an RF Low Noise Amplifier? The low-noise amplifier (LNA) is a special type of amplifier used in the receiver side.

3-Stage Low Noise Amplifier Design at 12Ghz

M. Atef, Hong Chen, and H. Zimmermann Vienna University of Technology

VI. HIGH-EFFICIENCY SWITCHMODE HYBRID AND MMIC POWER AMPLIFIERS:

High Gain Transimpedance Amplifier with Current Mirror Load By: Mohamed Atef Electrical Engineering Department Assiut University Assiut, Egypt.

Communication 40 GHz Anurag Nigam.

Input Stages for Radio Systems (Low Noise Amplifiers) (LNAs)

A 1 V RF front-end for both HIPERLAN2 and a

FET Amplifiers.

Variable Gain CMOS LNA MOREIRA E SILVA, Paulo Marcio, DE SOUSA, Fernando Rangel Introduction Simulation.

A 3.1–10.6 GHz Ultra-Wideband CMOS Low Noise Amplifier With Current-Reused Technique Microwave and Wireless Components Letters, IEEE Volume 17, Issue.

Ali Fard M¨alardalen University, Dept

Presentation transcript:

1 A Low Power CMOS Low Noise Amplifier for Ultra-wideband Wireless Applications 指導教授 : 林志明學生 : 黃世一

2 Outline Abstract Introduction Design Concepts Implementation Simulation Results Conclusion References

3 Abstract A CMOS low noise amplifier (LNA) for low- power ultra-wideband (UWB) wireless applications. To achieve low power consumption and wide operating bandwidth. LNA employing stagger tuning technique consists of two stacked common-source stages with different resonance frequencies.

4 0.18μm CMOS process GHz bandwidth maximum forward gain (S21) of 10.9 dB 1.8-V supply and 7.1 mW noise figure 3.5 dB IIP3 of – 5.1 dBm

5 Introduction UWB performs excellently for short-range high-speed uses Low power consumption The low noise amplifier (LNA) affect performance of signal bandwidth, noise figure, and power dissipation of the entire system

6 A feed-forward noisecanceling technique to minimize noise figure -3dB bandwidth is limited by device dimensions Difficult to achieve the frequency band requirement of UWB applications Serial resistor was used to improve the gain at low frequency

7 Design Concepts Noise performance Linearity Buffer Input impedance matching matching network at the input to resonate over the entire frequency band Hypass capacitor Coupling capacitor

8 The minimum noise figure is give by F min : the minimum noise factor ω : frequency of interest ω T : cutoff frequency; γ : the coefficients of drain noise δ : the coefficients of gate noise С : the correlation term

9

10 By controlling the gain peak at the lower bound of the frequency range, a very flat gain curve can be obtained over wide bandwidth

11 Implementation

pf 2.5nH 1000fF 0.9nH 1.8nH 350fF 4.3mA

13 Simulation Results

14 S11, S22, S21 and S12

15 Noise figure

16 Two-tone test and 1dB compression

17 Conclusion

18 References Chang-Ching Wu; Mei-Fen Chou; Wuen, W.-S.; Kuei-Ann Wen; Circuits and Systems, ISCAS IEEE International Symposium on May 2005 Page(s): Digital Object Identifier /ISCAS

19 Thank You For Your Attention