A tunable internal antenna based on composite right/left handed transmission line for mobile handset application




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НазваниеA tunable internal antenna based on composite right/left handed transmission line for mobile handset application
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A1

  1. Wu, Z. and Q. Feng, A tunable internal antenna based on composite right/left handed transmission line for mobile handset application. Institute of Microelectronics, Southwest Jiao tong University, ChengDu, ISAPE2010 005.

  2. ISAPE2010125(Withdrawn).

  3. Zhu Y., et al., Design of a Compact Dual-Band Printed Monopole Antenna for WLAN Applications. National Key Laboratory of Antennas and Microwave Technology ,Xidian University, Xi’an, Shaanxi, ISAPE2010149.

  4. LI Ying, T. Wei, and Z. Xin, Research on the High Precise Calibration of the GPS Receiving Antemma Phase Center. Beijing Institute of Tracking and Telecommunications Technology,Beijing, ISAPE2010179.

  5. Hsu1, W.-H., S.-C. Pan2, and Y.-T. Huang3, A well placement design to improve GSM/DCS and GPS antenna isolation. Department of Computer and Communication, Shu-Te University No.59, Hengshan Rd., Yanchao, Kaohsiung Country, 82445 Taiwan, ISAPE2010226.

  6. Sun#, L., S.G. Zhou#, and Q.Z. Liu#, New Dual Frequency band Antenna for Indoor GSM/UMTS/WLAN Applications. National Laboratory of Antennas and Microwave Technology,Xidian University No. 2 South Taibai Road, Xi’an 710071, China, ISAPE2010270.

  7. Qu1, Z., et al., The Pad Printing Technology Evaluation in Mobile Phone Antenna Manufacture. Foxconn International Holding Group, Foxconn Antenna Division, Beijing, ISAPE2010339.

  8. Haichao#*1, Q., S. Donglin#2, and Z. Xiaojun*3, Coupling characteristic study of airborne communication antenna under LEMP effect, EMC Laboratory, Beijing University of Aeronautics and Astronautics, Beijing, 100191, China. ISAPE2010366.

A2.

  1. QIN, S.-y., B. DU, and W.-j. ZHANG, Calculation of Ohm Loss Efficiency for Millimetre Wave Reflector Antennas The Fifty Fourth Institute of CETC, Shijiazhuang Hebei 050081, P.R.CHINA, ISAPE2010093.

  2. Hasan, S.A., Design & Measurements Techniques for Circularly Polarized, Dual Fed, High Gain, Lightweight, Wideband Conical Horn Antenna with Suppressed Side lobes & High Performance Radome for Space Applications. Institute of Space Technology ,Karachi, Pakistan, ISAPE2010146.

  3. Lili Wang, The Improvement of Lunebury Lens Antenna’s Analysis Method. School of Automation and Information Engineering, Xi’an University of Technology, Xi'an, Shaanxi, ISAPE2010205.

  4. Dong, W. and J. Miao, Design of a Wide Beam Millimetre-wave Antenna. Electromagnetics Laboratory, School of Electronic and Information Engineering, Beihang University, Beijing 100191, China, ISAPE2010242.

  5. Yi, Y. and W. Dou, Analysis and Design of Dielectric Zoned Hollow Lens Antenna at W-Band State Key Laboratory of Millimeter Waves, Southeast University Nanjing 210096, China, ISAPE2010249.

  6. Liu1, G. and W. Dou2, A Study on Circular Polarization Multi-beam Antenna at Ka Band State Key Laboratory of Millimeter Waves, Southeast University Nanjing 210096, China, ISAPE2010298.

  7. Jing-Hui, Q., et al., Research on Quasi-Optics and feed antenna for Millimeter Wave Imaging System. Dept. of Microwave Engineering, School of Electronics and Information Engineering, Harbin Institute of Technology, Harbin, 150001, China, ISAPE2010329.

  8. Kong Rong and S. Donglin, Analysis for phase center of pyramidal horn antennas for out of band, Beihang University, Beijing, China, ISAPE2010334.

A3

  1. Zhang, N., D. Yu, and Y.-g. Wang, A New Method of Matching Antenna Array Based on Coupling Impedance National Laboratory of Antennas and Microwave Technology, ISAPE2010049.

  2. 18.F.H.Wee and F.Malek, Barium Strontium Titanate (BST) Array Antenna covered with Dielectric Resonator Superstrates for High Gain and High Directive Antenna. 1School Of Computer and Communication EngineeringUniversiti Malaysia Perlis, UniMAP, ISAPE2010061.

  3. He, Q.-Q., System Error Analysis and Pattern Calibration for a Planar Array Antennas. Southwest China Institute of Electronic Technology, Chengdu, ISAPE2010069.

  4. WANG1, M., et al., Random phasing in phased array antennas and dithering in DDS. 1. Nanjing Research Institute of Electronics Technology, Nanjing ;2. State Key Lab. Millimeter Waves, Southeast University, Nanjing, ISAPE2010104.

  5. Chauhan1, P. and B.K. Sarkar2, Performance Analysis of Various Weighting Schemes for Multiple Access Array Antenna Wireless Receiver Systems at S-band. 1,2 Department of Electronics and Electrical Communication Engineering , Indian Institute of Technology ,Kharagpur Kharagpur 721302,West Bengal ,India, ISAPE2010144.

  6. Hasan, S.A., Highly Reliable & Adaptive SMART Phased Array Antenna with Gain Adjustment & Beam Forming Capabilities for Space Applications. Institute of Space Technology ,Karachi, Pakistan, ISAPE2010145.

  7. Lu, W.-j. and H.-b. Zhu, Numerical Analysis of a Novel Antenna Array for Ultra-wideband Polarization Diversity Appilcations. Jiangsu Key Laboratory of Wireless Communications,College of Communications and Information Engineering,Nanjing University of Posts & Telecommunications, Nanjing, Jiangsu, China, ISAPE2010208.

  8. Dong, J., R. Shi, and W. Lei, Particle Swarm Optimization for Circular Array Designs in Aperture Synthesis Radiometers Institute of Information Science and Engineering, Central South University, ISAPE2010302.

A4.

  1. Siddiqui, O., H. Attia, and O. Ramahi*, Antenna Beam Control using High Refractive Index Superstrates. Department of Electrical and Computer Engineering, University of Waterloo 200 University Avenue West, Waterloo, Ontario, Canada, ISAPE2010143.

  2. Chung#, K.L., C.H. Wong, and Y.S. Chan, Singly-Fed Wang-Shaped Patch Antennas for Circular Polarization Department of Electronic and Information Engineering, Hong Kong Polytechnic University ,Hung Hom, Kowloon, Hong Kong SAR, PRC ISAPE2010175.

  3. Lili Wang, The Design And Simulation Of Dual-frequency Circularly Polarized Microstrip Antenna. School of Automation and Information Engineering, Xi’an University of Technology, Xi'an, Shaanxi, ISAPE2010204.

  4. Lu, X. and W. Dou, Monopulse Circular Polarization Radial Waveguide Slot Array Antenna at W Wave Band State Key Laboratory of Millimeter Waves, Southeast University Nanjing 210096, China, ISAPE2010292.

  5. Ye, J., Y. Wang, and J. Xu, Novel Compact Circularly Polarized Printed Ring Slot Antennas Department of Electronic Communication Technology, Shenzhen Institute of Information Technology, Shenzhen, Guangdong province, 518029, China, The 36th Research Institute of CETC, Jiaxing, Zhejiang province, 314033, China, ISAPE2010309.

  6. Cong1, Y. and W. Dou2, Design of Dual-Polarized Waveguide Slotted Antenna Array for Ka-band Application State key laboratory of millimeter waves, outheast University, Nanjing, 210096, China, ISAPE2010311.

  7. Hu, M., W. Tang#, and C. Cai, A New Variable Step-Size LMS Adaptive Filtering Algorithm for Beamforming Technology*, College of Information Science and Engineer, Huaqiao University, ISAPE2010333.

  8. Jianfeng Ye#1 and Y. Wang*2, A Broad-band Circularly Polarized Microstrip Antenna for Thuraya Satellite Communication. #Department of Electronic Communication Technology, Shenzhen Institute of Information Technology Shenzhen, Guangdong province, 518029, China;* The 36th Institute of CETC Jiaxing, Zhejiang province, 314033, China, ISAPE2010414.

A5.

  1. Chaturvedi, A., Y. Bhomia, and D. Yadav, TRUNCATED TIP TRIANGULAR MICROSTRIP PATCH ANTENNA. 1 IEEE Member, Department of Electrical Engineering,NIT,Surathkal,India,2,3Department of Electronics Engineering, AIET,Kukas, Jaipur,India, ISAPE2010042.

  2. Chuang#1, G., Y. Chengyou#2, and C. Xiaozhou#3, Analysis of microstrip antennas with left-hand stratified media. National Key Laboratory of Pulsed Power Laser Technology of Electronic Engineering Institute, ISAPE2010 051.

  3. Huque1, M.T.I.-u., et al., Design and Performance Analysis of the Rectangular Spiral Microstrip Antenna and Its Array Configuration. Department of Electronics and Telecommunication Engineering Rajshahi University of Engineering and Technology, Rajshahi-6204,Bangladesh, ISAPE2010091.

  4. Yuanbo#1, W., S. Zheng#2, and M. Hengmin#3, Analyse Multilayers or Stacked Micostrip Patch Antennas with SIE. #National Key Laboratory of Pulsed Power Laser Technology of Elecronic Ebgineering Institute 460 Huangshan Rd, Hefei, Anhui, Chain, ISAPE2010110.

  5. Attia1, H. and O.M. Ramahi2, Transmission Line Model to Characterize Microstrip Antennas Capped with Dielectric Superstrates. Electrical and Computer Engineering Department, University of waterloo Waterloo, Ontario, N2L 3G1, Canada, ISAPE2010153.

  6. Monavar#1, F.M. and N. Komjani*2, Improving Microstrip Patch Antenna Bandwidth Using Frequency Selective Surfaces. #Electrical Engineering Department, Iran University of Science and Technology, Tehran, Iran, ISAPE2010160.

  7. Sun#1, D., W. Dou#2, and L. You*3, A Wideband Aperture-Coupled Microstrip Patch Antenna with Backed Cavity of Dielectric. State Key Laboratory of Millimeter Waves, Southeast University, 2# Si Pai Lou, Nanjing, P. R. China, 210096, ISAPE2010293.

  8. Fan#1, Y., et al., A compact microstrip antenna by a finite U-Shaped ground plane, # National Key Laboratory of Science and Technology on Antennas and Microwaves, Xidian University, Xi’an, Shaanxi, China, ISAPE2010381.

A6.

  1. Huang#1, Z. and X. Jiang#2, Design of a Directional Ultra-Wideband Planar Antenna Array. School of Information & Communication Engineering, Guilin University of Electronic Technology Guilin, ISAPE2010071.

  2. Hu#1, W., J. Zhang#2, and F. Hu#3, Design of An Ultra-Wideband Antenna With Dual Band-Notched Characteristic. #National Key Laboratory of Pulsed Power Laser Technology of Electronic Engineering Institute, ISAPE2010097.

  3. Zhang, F.-f., et al., Study and design of a broadband monopole antenna using non-Foster circuits National Key Laboratory of Antennas and Microwave Technology, Xidian University, Xi'an, Shanxi ISAPE2010158.

  4. Cui#1, Y., et al., A Printed Circular Disc Monopole Antenna with Dual Band-Notched Characteristic for UWB Applications. # School of Electronic Engineering, Xidian University, Xi’an;* National Key Laboratory of Antennas and Microwave Technology,Xidian University, Xi’an, ISAPE2010191.

  5. Jian, L., Notched Planar Inverted-F Antenna with Parasitic Strips for Mobile Multi-band Applications. he Department of Communication Engineering, Xi’an University of Science and Technology ,No. 58 Yanta Road, Xi’an, ISAPE2010206.

  6. Wang1, Z., et al., A Wideband Stacked Plate Antenna with a U-Shaped Ground Plane for UHF CMMB Repeater School of Information Science and Technology, Dalian Maritime University No.1, Linghai Road, Dalian, Liaoning 116026, China, ISAPE2010312.

  7. Cai#1, X., A. Wang#2, and S. Gao#3, A Compact Gourd-Shaped Dual-Band Antenna for WiMAX/WLAN Applications #School of Electronic Information Engineering, Tianjin University Tianjin 300072 China, ISAPE2010388.

  8. Peng Fei, Yong-Chang Jiao, and W. Hu, A Compact CPW-Fed Finger-Shaped Antenna for UWB Application National Key Laboratory of Science and Technology on Antennas and Microwaves Xidian University, ISAPE2010405.

A7.

  1. Zhang1, J., J. Wang2, and W. Hu, Analysis of UWB signal distortion in transmitting/receiving antenna systems. State Key Laboratory of Pulse Power Laser Technology, Hefei Electronic Engineering Institute, Hefei, ISAPE2010063.

  2. Zou, R., et al., A Z-shaped Band-notched Unsymmetric Monopole Antenna for Ultra-wideband Application. ISAPE2010317.

  3. Zhao#*1, H., et al., Design of a Simple and Compact Monopole UWB Antenna with Controllable Band-notched Function. National Key Laboratory of Antennas and Microwave Technology, Xidian University, Missile institute of air force engineering university, ISAPE2010323.

  4. Qi Li Student member IEEE, X.-s. Ren, and C.-h.L.S.m. IEEE, Planar UWB Antenna with Notched Band Employing Embedded Open Stub, National Key Laboratory of Antennas and Microwave Technology, Xidian University, ISAPE2010370.

  5. Rajesh, D. and P.K. Sahu, Compact UWB Parasitic Notch Filter Microstrip Antenna, Dept. of Electrical Engineering, National Institute of Technology Rourkela, Odisha, India- 769008, ISAPE2010372.

  6. Lijia, C., Z. Pengyu, and Q. Jinghui, Novel Ultrawide-band Omnidirectional Circular Disk Monopole Antenna, School of Electronics and Information Technology, Harbin Institute of Technology, ISAPE2010395.

  7. Yu-Zhan Li#1, et al., A Compact CPW-Fed Elliptical-Slot UWB Antenna with Dual Band-Notched Features. #School of Electronic and Information, Northwestern Polytechnical University, Xi’ an, Shannxi 710072, China, ISAPE2010416.

  8. Pei#1, J., A.W. #2, and X.C. #3, A Novel Dual-Band Printed Antenna with a Defected Ground Plane for WLAN Applications #School of Electronic Information Engineering, Tianjin University, ISAPE2010387.

A8.

  1. Liu, S. and Q. Feng, Design of a Frequency-Tunable Dual-Band Planar Monopole Antenna for Handheld Terminals. Institute of Microelectronics, Southwest Jiaotong University, ISAPE2010003.

  2. Nosrati1, M., M. Mirzaee2, and P. Taheri3, A Novel Dual-Band Antenna Using Inductive Loaded Spiral Slot Lines. Electrical Department of Islamic Azad University, 1Dehloran Branch, Dehloran, Ilam, 2Eslam Abad Branch, Eslam Abad, Kermanshah, 3South Tehran Branch, Tehran, Iran, ISAPE2010024.

  3. Zhao#1, G., Y.-C. Jiao#2, and F.-S. Zhang#3, Broadband design of a shaped beam reflectarray with China coverage pattern. National Key Laboratory of Antennas and Microwave Technology, Xidian University Xi’an, Shaanxi ISAPE2010166.

  4. LI#1, Y.-s., et al., A Dual-band Tapered Slot Omni-directional Antenna. # College of Information and Communications Engineering,Harbin Engineering University,Harbin, Heilongjiang;* Research Centre of War-Ship EMC,Harbin Engineering University,Harbin, Heilongjiang, ISAPE2010181.

  5. Wang, X.-m., et al., Slot-fed Cylindrical Dielectric Resonator Antenna (DRA) for Wideband Application. National Laboratory of Antennas and Microwave Technology, Xidian University,Xi’an, Shaanxi, ISAPE2010183.

  6. Zhang, X., H. Guo, and X. Liu, A Broadband Self-complementary Printed Antenna with Axe Shape School of Electronica and Information Engineering, Soochow University, Suzhou 215006, China, ISAPE2010258.

  7. Zheng, M., FU Guang, and Z. Zhi-ya, A modified umbrella-shaped monopole antenna for multi-band operation National Key Laboratory of Science and Technology on Antennas and Microwaves Xidian University, ISAPE2010340.

  8. Chen, H.-Y. and Y. Tao, Antenna Gain and Bandwidth Enhancement Using Frequency Selective Surface with Double Rectangular Ring Elements. Department of Communications Engineering, Yuan Ze University, ISAPE2010365.

A9.

  1. C. S. Wang1, et al., On Integrated Visual Optimization System for Large Reflector Antenna Structures. 1 Nanjing Research Institute of Electronics Technology Nanjing;2 Key Laboratory of Electronic Equipment Structure Design, Ministry of Education School of Electromechanical Engineering, Xidian University Xi’an, ISAPE2010126.

  2. Tao Wei#, et al., HTc rf SQUID Magnetometer as Low Frequency Antenna. #Electronic Engineering College Naval University of Engineering, Wuhan, China;^State Key Laboratory for Artificial Microstructure and Mesoscopic Physics, Peking University Beijing,China, ISAPE2010135.

  3. Bai-sheng Nie #, et al., Characteristic Researches on Receiving Antenna of Coal-rock Electromagnetic Emission. # State Key Lab of Coal Resources and Safe Mining(China University of Mining and Technology);*School of Resource and Safety Engineering, China University of Mining & Technology(Beijing),D11 Xueyuan Road,Beijing 100083, PR China, ISAPE2010174.

  4. Jin-Juan Zhao, et al., A Novel Broadband Reflectarray Antenna Using Windmill Elements, National Key Laboratory of Antennas and Microwave Technology, Xidian University, ISAPE2010342.

  5. Zhang, T.-L., Z.-H. Yan, and B.L.a.L. Chen, The Optimization of Contoured Beam Reflector Antenna Based on DEGL, National Key Laboratory of Science and Technology on Antennas and Microwaves, Xidian University Xi’an, Shaanxi ISAPE2010356.

  6. Bo-yu, X., Z. Guang-qiu, and T. Zheng, Design of Reflectarray Antenna Element Based on Hour-Glass Shaped Coupling Aperture, Zhengzhou Institute of Information Science and Technology, Zhengzhou, China, ISAPE2010400.

  7. Liu, X. and S. Quan*, Spatial and Angular Domain Simulation of the Feed Spillover in Compact Antenna Test Range, Electromagnetic Engineering Lab, Beihang University, 100191, China, ISAPE2010402.
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