IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
Inhaltsverzeichnis
- 61
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Mur Absorbing Boundary Condition for Efficient Fundamental 3-D LOD-FDTDWei Choon Tay, / Eng Leong Tan, et al. | 2010
- 64
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Open Cloaks Via Embedded Optical TransformationTiancheng Han, / Xiaohong Tang, / Fei Xiao, et al. | 2010
- 67
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New Miniaturized Dual-Mode Dual-Band Ring Resonator Bandpass Filter With Microwave $C$-SectionsYi-Chyun Chiou, / Cho-Yu Wu, / Jen-Tsai Kuo, et al. | 2010
- 67
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New Miniaturized Dual-Mode Dual-Band Ring Resonator Bandpass Filter With Microwave Formula Not Shown -SectionsChiou, Y. C. / Wu, C. Y. / Kuo, J. T. et al. | 2010
- 70
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Balanced Dual-Band BPF With Stub-Loaded SIRs for Common-Mode SuppressionChing-Her Lee, / Hsu, C.-I.G. / Chih-Chan Hsu, et al. | 2010
- 73
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Dual-Mode Dual-Band Filter With Band Notch StructuresYoungje Sung, et al. | 2010
- 76
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Development of a Compact Broadband Folded Hybrid Coupler on Multilayer Organic SubstrateHai Hoang Ta, / Anh-Vu Pham, et al. | 2010
- 79
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Miniaturized FSS and Patch Antenna Array Coupling for Angle-Independent, High-Order Spatial FilteringBayatpur, F. / Sarabandi, K. et al. | 2010
- 82
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A Low Loss High Isolation DC-60 GHz SPDT Traveling-Wave Switch With a Body Bias Technique in 90 nm CMOS ProcessHong-Yeh Chang, / Ching-Yan Chan, et al. | 2010
- 85
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A 60–110 GHz Transmission-Line Integrated SPDT Switch in 90 nm CMOS TechnologyRuei-Bin Lai, / Jhe-Jia Kuo, / Huei Wang, et al. | 2010
- 88
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Low phase noise differential Vackar VCO in 0.18 micrometer CMOS technologyNguyen, Tai-Nghia / Lee, Jong-Wook et al. | 2010
- 88
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Low Phase Noise Differential Vackar VCO in 0.18 $\mu{\rm m}$ CMOS TechnologyTai Nghia Nguyen, / Jong-Wook Lee, et al. | 2010
- 88
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Low Phase Noise Differential Vackar VCO in 0.18 Formula Not Shown CMOS TechnologyNguyen, T. N. / Lee, J. W. et al. | 2010
- 91
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A fully-differential complementary Hartley VCO in 0.18 micrometer CMOS technologyPark, Joonhong / Park, Junyoung / Choi, Youngwan et al. | 2010
- 91
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A Fully-Differential Complementary Hartley VCO in 0.18 $\mu$m CMOS TechnologyJoonhong Park, / Junyoung Park, / Youngwan Choi, et al. | 2010
- 91
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A Fully-Differential Complementary Hartley VCO in 0.18 Formula Not Shown m CMOS TechnologyPark, J. / Choi, Y. / Sim, K. et al. | 2010
- 94
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A 47 GHz Formula Not Shown Cross-Coupled VCO Employing High- Formula Not Shown Island-Gate Varactor for Phase Noise ReductionKim, N. / Oh, Y. / Rieh, J. S. et al. | 2010
- 94
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A 47 GHz $LC$ Cross-Coupled VCO Employing High- $Q$ Island-Gate Varactor for Phase Noise ReductionNamhyung Kim, / Yongho Oh, / Jae-Sung Rieh, et al. | 2010
- 97
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A Wide Tuning Range 69 GHz Push-Push VCO Using 0.18 $\mu{\rm m}$ CMOS TechnologyHsien-Chin Chiu, / Chih-Pin Kao, et al. | 2010
- 97
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A Wide Tuning Range 69 GHz Push-Push VCO Using 0.18 Formula Not Shown CMOS TechnologyChiu, H. C. / Kao, C. P. et al. | 2010
- 97
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A wide tuning range 69 GHz push-push VCO using 0.18 micrometer CMOS technologyChiu, Hsien-Chin / Kao, Chih-Pin et al. | 2010
- 100
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A Low-Power Self-Forward-Body-Bias CMOS LNA for 3–6.5-GHz UWB ReceiversChen-Ming Li, / Ming-Tsung Li, / Kuang-Chi He, et al. | 2010
- 103
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A Low-Power Linear SiGe BiCMOS Low-Noise Amplifier for Millimeter-Wave Active ImagingChen, A.Y.-K. / Baeyens, Y. / Young-Kai Chen, et al. | 2010
- 106
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CMOS RF Power Amplifier for UHF Stationary RFID ReaderTaehwan Joo, / Hongtak Lee, / Sunbo Shim, et al. | 2010
- 109
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A Saturated Doherty Power Amplifier Based On Saturated AmplifierJangheon Kim, / Junghwan Son, / Junghwan Moon, et al. | 2010
- 112
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A High-Linearity Wideband Power Amplifier With Cascaded Third-Order Analog PredistortersYong-Sub Lee, / Mun-Woo Lee, / Sang-Ho Kam, et al. | 2010
- 115
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A Biphase Modulator Circuit for Impulse Radio-UWB ApplicationsSchleicher, B. / Ulusoy, C.A. / Schumacher, H. et al. | 2010
- 118
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Comparison of Large-Signal-Network-Analyzer CalibrationsWilliams, D.F. / Remley, K.A. / Gering, J.M. et al. | 2010
- 121
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Further Improvements in Real-Time Load-Pull Measurement AccuracyBonino, S. / Teppati, V. / Ferrero, A. et al. | 2010
- 124
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High TX-to-RX Isolation in UHF RFID Using Narrowband Leaking Carrier CancellerTing-wen Xiong, / Xi Tan, / Jing-tian Xi, et al. | 2010
- 127
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3.125 Gb/s Impulse Radio Ultra-Wideband Photonic Generation and Distribution Over a 50 km Fiber With Wireless TransmissionGibbon, T.B. / Xianbin Yu, / Gamatham, R. et al. | 2010
- 130
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Correction to "A Generalized Negative-Refractive-Index Transmission-Line (NRI-TL) Metamaterial for Dual-Band and Quad-Band Applications"Eleftheriades, G. V. et al. | 2010
- 130
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Correction to “A Generalized Negative-Refractive-Index Transmission-Line (NRI-TL) Metamaterial for Dual-Band and Quad-Band Applications” [Jun 07 415-417]Eleftheriades, George V. et al. | 2010
- 131
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Advertisement - IEEE Foundation| 2010
- 132
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Advertisement - Leading the field since 1884| 2010
- C1
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Table of contents| 2010
- C2
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IEEE Microwave and Wireless Components Letters publication information| 2010
- C3
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IEEE Microwave and Wireless Components Letters information for authors| 2010