Xiu Yin Zhang
time: 2017-05-08

Name: Xiu Yin Zhang

Introduction: Professor

School of Electronic and Information Engineering

South China University of Technology School of Electronic and Information Engineering  

Photo:

Contact: zhangxiuyin@hotmail.com

Tel: 86-20-22236570

Address: Room 505, 30th Building,

Education Experience:

Sept.   2016- PresentVice Chair, IEEE Guangzhou Subsection

May.   2012- PresentFull Professor,   South China University of Technology, Guangzhou, China

Sept.   2012- PresentSenior Member, IEEE

Feb.2010- Apr. 2012Associate   Professor, South China   University of Technology, Guangzhou, China

Aug. 2005- Jan. 2010Research Fellow, State Key   Laboratory of Millimeter Waves, City University of Hong Kong, Hong Kong SAR,   China

Jul.2007- Jul. 2009PhD   student, Department of Electronic Engineering, City University of HK

Jul.2006- Jun. 2007Research Assistant, Department   of Electronic Engineering, City University of HK

Sept. 2003- Jun. 2006MPhil student, School of Electronic and Information   Engineering, South China University of Technology, Guangzhou ,China

Jul.2001- Aug.2003Engineer, ZTE corporations, Shenzhen, China

Sept. 1997- Jun. 2001Undergraduate student, School of Communication   Engineering, Chongqing University of Posts and Telecommunications, Chongqing,   China.

Research Interests

Microwave/millimetre-wave   passive and active circuits,antennas   and arrays, wireless power transfer, microwave energy harvesting

Recent Project:

1.Top-Notch   Young Talent Program of China: “Research on miniaturization and low power   consumption of RF sub-system,” 2015.11-2017.10, RMB 1.6 million, funded by   Organization Department of the Central Committee of the CPC.

2.National   Natural Science Foundation for Outstanding Young Scholars of China:   “Microwave circuit and device,” 2015.1-2017.12, RMB 1.0 million, funded by   National Natural Science Foundation of China.

3.Guangdong Provincial   Natural Science Foundation for Distinguished Young Scholar: “Research on the   key technologies and application of LTCC RF circuits with high-level   integration,” 2013.10-2017.9, RMB 1.0 million, funded by Guangdong Provincial   Science and Technology Agency.

4.National   Natural Science Foundation: “Research on power divider/combiner with   filtering performance,” 2013.1-2016.12, RMB 850,000, funded by   National Natural Science Foundation of China.

5.New   Century Outstanding Talents Program of Ministry of Education: “Research on   the key theories and technologies of wideband reconfigurable RF front ends   for cognitive radio,” 2011.1-2013.12, RMB 0.5 million, funded by Chinese   Ministry of Education.

6.National   Natural Science Foundation for Young Scholars of China: “Research on the key   technologies of RF electrically tunable filters for cognitive radio,”   2011.1-2013.12, RMB 280,000, funded by National Natural   Science Foundation of China.

7.Sub-project   of National 973 Program: “Fundamental research on high-performance microwave   integrated devices for wireless access networks,” 2014.1-2018.8, RMB 338,000,   funded byChinese   Ministry of Science and Technology.

8.Open   Project of State Key Laboratory: “Research on miniaturized reconfigurable RF   filters,” 2011.1-2012.12, RMB 100,000, funded by State Key Laboratory of   Millimeter Waves.

9.Guangdong Provincial Natural Science   Foundation: “Research on the theories and technologies of integration of RF   filters with power dividers,”2012.10-2014.9, RMB 50,000, funded by Guangdong   Provincial Science and Technology Agency.

10.PhD Startup project of   Guangdong Provincial Natural Science Foundation: “Research on compact RF   electrically tunable bandpass filters,”2010.10-2012.9, RMB   30,000, funded by Guangdong Provincial Science and Technology Agency.

11.Guangzhou Civic Major Special Projects of   Industry-university-research Collaborative Innovation: “Research on   miniaturized ultra-wideband multiband base station electrically tunable   antennas for TD-LTE   and its industrialization,”2015.1.1-2017.12.31, RMB 600,000, funded by   Guangzhou Science Technology and Innovation Commission.

12.Guangzhou and Hong Kong   Major Projects in Key Fields: “Research on the key technologies of full   service of 3G network and its industrialization,” 2010.5-2012.4, RMB 200,000, funded by Guangdong Provincial Science and Technology Agency.

13.Guangdong Provincial Project of   Industry-university-research Collaboration: “Research on safety monitoring system of mobile communication tower based   on internet of   things and its industrialization,” 2012.2-2014.2, RMB 160,000, funded by Guangdong   Provincial Science and Technology Agency.

14.Special Project of Scientific Research of Guangzhou Civic Science and   Technology Program: “Research on millimeter wave antennas for wireless body area network,” 2014.4-2016.1, RMB   80,000, funded by Guangzhou Science Technology and Innovation Commission.

15.Guangdong ProvincialScience and Technology Innovation Program of   Higher Education Institution: “Research on multi-beam phased array with high capacity   for mobile communication,” 2012.12-2014.12, RMB 70,000, funded by Guangdong   Provincial Education Agency.

16.Major Program of the Central University Basic   Scientific Research Business Expenses: “Research on RF electrically tunable   filters for software-defined radio,” 2010.1-2011.12,RMB 250,000, funded by South China University of   Technology.

17.Rolling Program of the Central University Basic   Scientific Research Business Expenses: “Research on the key technologies of   wideband reconfigurable RF front ends for cognitive radio,”2011.1-2012.12, RMB 100,000, funded   by South China University of Technology.

18.Rolling Program of the Central University Basic   Scientific Research Business Expenses: “Research on the miniaturization of RF   circuits based on LTCC,” 2014.1-2015.12, RMB 200,000, funded by South China   University of Technology.

19.Company Program: “Research on miniaturized   transceiving antennas with high isolation,” 2012.05-2012.12, RMB 100,000.

20.Company Program: “Research on wideband antennas   of jammer,” 2012.06-2012.9, RMB 80,000.

21.Company Program: “Research on miniaturized   antennas for LTE application,”2013.10-2014.1, RMB 30,000.

22.Company Program: “Research on high-efficiency RF   power amplifier integrating filtering function for 3G/4G/WiFi,”   2013.12-2014.12, RMB 200,000.

23.Company Program: “Research on filters and   multiplexers of rectangular beamforming antennas in venues,”   2013.01.01-2014.06, RMB 100,000.

24.Scientific Research Funding for Outstanding Young   Scholar in Distinguished Scholar Development Program of South China   University of Technology, 2012.10-2016.9, 600,000, South China University of   Technology.

Achievement:

1.Outstanding Young Scholar of the Changjiang   Program, Chinese Ministry of Education, 2016

2.Natural Science Award (1st Honour) of   Guangdong Province, China, 2015

3.Top-Notch Young Talent Program of China, 2015

4.National Science Foundation for Outstanding   Young Scholars of China, 2014

5.Guangdong Natural Science Fund for   Distinguished Young Scholar, 2013

6.Awards by Students Supervised

ØBest Student Paper   Award, IEEE 5th   Asia-Pacific Conference on Antennas and Propagation (IEEE APCAP), 2016

ØBest Student Paper   Award, IEEE MTT-S   International Microwave Workshop Series on Advanced Materials and Processes   for RF and THz Applications (IEEE IMWS-AMP), 2016

ØBest Student Paper Award, National Conference on Microwave and Millimeter   Wave Technology (NCMMW),   2015

ØBest Paper Award, Cross Strait Quad-Regional Radio Wireless   Conference (CSQRWC), 2014

ØBest Student Paper   Award, IEEE   InternationalWorkshop on   Electromagnetics (IEEE iWEM), 2013

  

Books:

Q. Xue, and X. Y. Zhang, “Advances in   power splitters,” Wiley Encyclopedia of   Electrical and Electronics Engineering, Published Online: 15 Sept. 2014

  

Journal Papers:

  

14   Papers in “IEEE Trans. Microwave Theory Tech.”

  1. J.-X. Xu and X. Y. Zhang*, “Compact high-isolation LTCC diplexer using common stub-loaded        resonator with controllable frequencies and bandwidths,” IEEE Trans.        Microw. Theory Tech.,        accepted for publication.

  2. X. Y.        Zhang*, C.-D. Xue and J.-K. Lin, “Distance-insensitive wireless        power transfer        using mixed electric and magnetic        coupling        for frequency splitting suppression,”        IEEE Trans. Microw. Theory Tech., accepted for publication.

  3. Q. W. Lin and X.        Y. Zhang*, “Differential rectifier using resistance        compression        network        for improving        efficiency        over        extended        input        power        range,”        IEEE Trans. Microw. Theory Tech., vol. 64, no. 9        pp. 2943-2954, Sept. 2016.

  4. X. Y.        Zhang*, J.-X. Xu, and        J. -X. Chen, High-power filtering switch        with low loss and high isolation based on dielectric resonator,        IEEE Trans. Microw. Theory Tech.,        accepted for publication.

  5. L. Gao, X. Y. Zhang*,        and Q. Xue, “Compact tunable filtering power divider with constant        absolute bandwidth,” IEEE Trans. on Microwave Theory and Techniques, vol. 63, no.10, pp. 3505-3513, Oct.,        2015. ( 13 citations by others)

  6. K. X. Wang, X. Y. Zhang*,        S. Y. Zheng, and Q. Xue, “Compact filtering rat-race hybrid with wide        stopband,” IEEE Trans.on Microwave Theory and Techniques, vol. 63, no.8, pp. 2550-2560, Aug,        2015. (3citation by others)

  7. L. Gao, X. Y.        Zhang* and B. J. Hu,        “Novel multi-stub loaded resonators and their applications to various        bandpass filters,” IEEE Transactions on Microwave Theory and        Techniques, vol.62, no.5, pp.1162-1172, May. 2014. (38citation by others)

  8. K. X. Wang, X. Y. Zhang*,        and B. J. Hu, “Gysel power divider with arbitrary power ratios and        filtering responses using coupling structure,” IEEE Transactions on        Microwave Theory and Techniques, vol.62, no.3, pp.431-440,        Mar. 2014. (20citation by others)

  9. Y. C. Li, Q. Xue, and X. Y.        Zhang, “Single- and        dual-band power divider integrated with bandpass filters,” IEEE        Transactions on Microwave Theory and Techniques. vol. 61, no.1, pp. 69-76, Jan,        2013. (55citation by others)

  10. X. Y.        Zhang*, Q. Xue, C. H.        Chan and B. J. Hu, “Low-loss frequency-agile bandpass filters with        controllable bandwidth and suppressed second harmonic,” IEEE        Transactions on Microwave Theory and Techniques, vol.58, no.6, pp.1557-1564, Jun. 2010. (45citation by others)

  11. X. Y.        Zhang* and Q. Xue,        “High-selectivity tunable bandpass filters with harmonic suppression,” IEEE        Transactions on Microwave Theory and Techniques, vol.58, no.4, pp.964-969, Apr. 2010. (31citation by others)

  12. G. L. Dai, X. Y. Zhang,        C. H. Chan, Q. Xue and M. Y. Xia, “An investigation of open- and        short-ended resonators and their applications to bandpass filters,” IEEE        Transactions on Microwave Theory and Techniques,vol.57, no.9, pp.2203-2210, Sept. 2009.(22citation by others)

  13. X. Y.        Zhang* and Q. Xue,        “Novel centrally loaded resonators and their applications to bandpass        filters,” IEEE Transactions on Microwave Theory and Techniques, vol.56, no.4, pp.913-921,        Apr. 2008. (85citation by others)

  14. X. Y.        Zhang*and Q. Xue, “Novel dual-mode dual-band        filters using coplanar-waveguide-fed ring resonators,” IEEE        Transactions on Microwave Theory and Techniques, vol.55, no.10, pp.2183-2190, Oct. 2007. (101citation by others)

  

11 Papers in “IEEE Trans. on Antennas and   Propagation”

  1. X.        Y. Zhang*, Y. Zhang,        Y.-M. Pan, and W. Duan, “Low profile dual-band filtering patch antenna        and its applications in LTE MIMO system,” IEEE Trans. Antennas and Propagation, vol.65, no.1, pp.103-113, Jan. 2017.

  2. Y. Zhang, X.        Y. Zhang*and Y.-M.        Pan, “Compact single- and dual-band filtering patch antenna arrays using novel feeding scheme,” IEEE Trans. Antennas and Propagation,        conditionally accepted.

  3. C. D. Xue, X.        Y. Zhang*Y. F. Cao, Z. Hou and C. F. Ding, “MIMO antenna using hybrid electric and magnetic coupling for isolation enhancement,IEEE Trans. Antennas and Propagation,        conditionally accepted.

  4. P. Hu, Y.-M. Pan, X. Y. Zhang and S. Y. Zheng,        “Broadband        filtering dielectric resonator antenna with wide stopband,” IEEE        Trans. Antennas and Propagation, In press.

  5. W. Duan, X.        Y. Zhang*, Y.-M. Pan, J.-X. Xu, and Q. Xue, “Dual-polarized        filtering antenna with high selectivity and low cross polarization,” IEEE Trans. Antennas and Propagation.        vol.64, no.10, pp.4188-4196, Oct. 2016.

  6. Y. Zhang, X. Y. Zhang*, L.-H. Ye and Y.-M. Pan, “Dual-band        base-station array using filtering antenna elements for mutual coupling        suppression,” IEEE Trans. Antennas        and Propagation. vol.64, no.8, pp.3423-3430, Aug. 2016.

  7. P. F. Hu, Y.-M. Pan, X. Y. Zhang, and S. Y. Zheng, “A compact filtering        dielectric resonator antenna with wide bandwidth and high Gain,” IEEE Trans. Antennas and Propagation.        vol.64, no.8, pp.3645-3651, Aug. 2016.

  8. Y.-M. Pan, P. F. Hu, X. Y. Zhang, and S. Y. Zheng, “A low profile high        gain and wideband filtering antenna with metasurface,” IEEE Trans. Antennas and Propagation.        vol.6, no.5, pp.2010-2016, May. 2016.

  9. X.        Y. Zhang*, W. Duan, and        Y.-M. Pan, “High-gain filtering patch antenna without extra circuit,” IEEE Trans. Antennas and Propagation,        vol.63, no.12, pp.5883-5888, Dec. 2015. (3citation by others)

  10. S.-W. Qu, Q.-Y. Chen, M.-Y. Xia, and X. Y. Zhang,        “Single-layer dual-band reflectarray with single linear polarization,” IEEE Trans. Antennas and Propagation,        vol.62, no.1, pp.199-205, Jan. 2014. (7citation by others)

  11. C.-Y. D. Sim,        C.-C. Chen, X. Y. ZhangY.-L.        Lee, C.-Y. Chiang, “Very small-size        uniplanar printed monopole antenna for dual-band WLAN laptop computer        applications,IEEE Trans. Antennas and Propagation,        in        press.

3 Papers in “IEEE Trans. Industrial Electronics”

  1. J.-X. Xu,        and Xiu Yin Zhang*, “Single- and dual-band LTCC filtering switch with high isolation based on coupling control,” IEEE Transactions on Industrial        Electronics, vol.64, no.4 pp.3137-3146, Apr. 2017.

  2. X.        Y. Zhang*, C. H. Chan, Q. Xue, and B. J. Hu, “RF        tunable bandstop filters with constant bandwidth based on a doublet        configuration,” IEEE Transactions on Industrial Electronics, vol.59, no.2 pp.1257-1265, Feb. 2012. (37        citation by others)

  3. H. L. Zhang, B. J. Hu, and X. Y. Zhang, “Compact        equal and unequal dual-frequency power dividers based on composite        right/left-handed transmission lines,”IEEE Transactions on Industrial Electronics, vol.59, no.9 pp.3464-3472, Sept. 2012. (16citation by others)

  

4 Papers in “IEEE Trans. on Circuits and Systems

29.X. Y. Zhang*,   Z.-X. Du and Q. Xue,   “High-efficiency broadband rectifier with wide ranges of input power and   output load based on branch-Line coupler,”   IEEE Trans. Circuits and   Systems I: Regular Papers, vol.64, no.3 pp.731-739, Mar. 2017.

30.Q.-Y.   Guo, X. Y. Zhang*, J.-X. Xu,   Y. Li, Q. Xue, “Bandpass Class-F power amplifier based   on multi-function hybrid cavity-microstrip filter,” IEEE Trans. Circuits   and Systems II - Express Briefs, In press.

31.J.   Liu, X. Y. Zhang*, and C.   L. Yang, “Analysis and design of dual-band rectifier   using novel matching network,” IEEE   Trans. Circuits and   Systems II - Express Briefs, conditionally accepted.

32.Y.   L. Lin, X. Y. Zhang*, Z. X.   Du and Q. W. Lin, “High-efficiency microwave rectifier   with extended operating bandwidth,” IEEE   Trans. Circuits and   Systems II - Express Briefs, conditionally accepted.

  

1 Paper in “IEEE Trans. on Biomedical Circuits and Systems

33.X. Y. Zhang*,   H. Wong, T. MO, and Y. F. Cao, “Dual-band dual-mode   button antenna for on-body and off-body communications,” IEEE Trans. Biomedical Circuits and Systems, In press.

8   Papers   in “IEEE Trans. Components, Packaging, and Manufacturing Tech.”

  1. X.        Y. Zhang*, X.-F. Liu, Y.        C. Li, W. L. Zhan, Q.-Y. Lu and J. X. Chen, “LTCC out-of-phase filtering        power divider based on multiple broadside coupled lines,” IEEE Trans. Components, Packaging and        Manufacturing Technology, accepted for publication

  2. J.-X. Xu, X. Y. Zhang*, X.-L. Zhao and Q. Xue, “Synthesis and implementation of LTCC bandpass filter        with harmonic suppression,” vol.6, no.4, pp.596-604,        Apr. 2016.

  3. Z.-X. Du, X. Y. Zhang*, K.-X. Wang,        H.-L. Kao, X.-L. Zhao and X.-H. Li, “Unequal Wilkinson power divider with reduced        arm length for size miniaturization,IEEE        Trans. Components, Packaging and Manufacturing Technology, vol.6, no.2, pp.282-289, Feb. 2016.

  4. Q.-Y. Guo, X. Y. Zhang*, L. Gao, Y. C. Li and J.-X. Chen,        “Microwave and millimeter-wave LTCC filters using discriminating        coupling for mode suppression,” IEEE        Trans. Components, Packaging and Manufacturing Technology, vol.6, no.2, pp.272-281,        Feb. 2016.

  5. H. Wong, Q. W. Lin, H. W. Lai, and X. Y. Zhang, “Substrate        integrated meandering probe-fed patch antennas for wideband wireless        devices,” IEEE Trans. Components,        Packaging and Manufacturing Technology, vol.5, no.3, pp.381-388, Mar. 2015.        (4citation by others)

  6. X. Dai,        X. Y. Zhang*, H.-L. Kao, B.-H. Wei, J.-X. Xu and X. H. Li, “LTCC        bandpass filter with wide stopband based on electric and magnetic        coupling cancellation,” IEEE        Trans. Components, Packaging and Manufacturing Technology. vol.4, no.10,        pp.1705-1713, Oct. 2014. (4citation by others)

  7. H.-L. Kao, C.-S. Yeh, X. Y. Zhang*, C.-L. Cho, X. Dai, B.-H. Wei, L.-C.        Chang, and H.-C. Chiu, “Inkjet printed series-fed two-dipole antenna        comprising a Balun filter on liquid crystal polymer substrate,” IEEE Trans. Components, Packaging and        Manufacturing Technology, vol.4, no.7, pp.1228-1236, Jul. 2014. (4citation by others)

  8. X.        Y. Zhang*, X. Dai, H.-L.        Kao, B.-H. Wei, Z.-Y. Cai and Q. Xue, “Compact LTCC bandpass filter with        wide stopband using discriminating coupling,” IEEE Trans. Components, Packaging and Manufacturing Technology. vol.4, no.4, pp.656-663, Apr. 2014.        (6citation by others)

  

20 Papers in IEEE Microwave and Wireless Components   Letters”

  1. J. X. Xu, X. Y. Zhang* and X. Q. Song, High-Efficiency Filter-Integrated Class-F        Power Amplifier Based on Dielectric Resonator, IEEE Microwave        and Wireless Components Letters, conditionally        accepted.

  2. X.-L. Zhao, L.        Gao, X. Y. Zhang*, and        J.-X. Xu, Novel filtering power divider with wide stopband using discriminating coupling, IEEE        Microwave and Wireless Components Letters, vol. 26, no. 8, pp.        580-582, Aug 2016.

  3. J. X. Xu, X. Y. Zhang* and X. L.        Zhao, Compact LTCC balun with bandpass response based on marchand balun, IEEE        Microwave and Wireless Components Letters, vol. 26, no. 7, pp.        493-495, July 2016.

  4. L. Gao, X. Y. Zhang*, X.-L. Zhao,        Y. Zhang, and J.-X. Xu, Novel compact quad-band bandpass filter with controllable frequencies and bandwidths, IEEE        Microwave and Wireless Components Letters, vol. 26, no. 6, pp.        395-.397, Jun. 2016.

  5. J. Shi, J. Qiang, K. Xu, Z.-B. Wang, L. Lin,        J.-X. Chen, W. Liu and X. Y. Zhang, “A        balanced filtering branch-line coupler,” IEEE Microwave and Wireless        Components Letters,vol.26,        no.2, pp. 119-121, Feb. 2016.

  6. X. Y. Zhang*,        and Q. Xue, “Compact tri-band bandpass filter using novel eight-mode        resonator for 5G WiFi Application,” IEEE Microwave and Wireless        Components Letters, vol.25, no.10, pp.660-662, Oct. 2015. (5citation by others)

  7. Y. Zhang, L. Gao, and X. Y. Zhang*,        “Compact quad-band bandpass filter for DCS/WLAN/WiMAX/5G Wi-Fi application,” IEEE Microwave and Wireless Components        Letters, vol.25, no.10, pp.645-647, Oct. 2015. (5citation by others)

  8. L. Gao, X. Y. Zhang*, S. C.        Chen, and Q. Xue, “Compact power amplifier with bandpass response and        high efficiency,” IEEE Microwave and Wireless Components Letters, vol.24, no.10, pp.707-709, Oct. 2014. (4citation by others)

  9. X. Y. Zhang*,        Q.-Y. Guo, K. X. Wang, and B. J. Hu, “Compact filtering crossover using        stub-loaded ring resonator,” IEEE Microwave and Wireless Components        Letters, vol.24, no.5, pp.327-329, May. 2014. (9citation by others)

  10. L. Gao and X. Y. Zhang*,        “High-selectivity dual-band bandpass filter using a quad-mode resonator        with source-load coupling,” IEEE Microwave and Wireless Components        Letters, vol.23, no.9, pp.474-476, Sept. 2013. (29citation by others)

  11. X. Y. Zhang*,        K. X. Wang, and B. J. Hu, “Compact filtering power divider with enhanced        second-harmonic suppression,” IEEE Microwave and Wireless Components        Letters, vol.23, no.9, pp.483-485, Sept. 2013. (31citation by others)

  12. X. Y. Zhang*,        Y. W. Zhang, and Q. Xue, “Compact band-notched UWB filter using parallel        resonators with a dielectric overlay,” IEEE Microwave and Wireless        Components Letters, vol.23, no.5, pp.252-254, May. 2013. (9citation by others)

  13. X. Y. Zhang*,        C. H. Chan, Q. Xue, and B.-J. Hu “Dual-band bandpass filter with        controllable bandwidths using two coupling paths,” IEEE Microwave and        Wireless Components Letters,        vol.20, no.11, pp.616-618, Nov. 2010. (44citation by others)

  14. X. Y. Zhang*,        Q. Xue, and B.-J. Hu “Planar tri-band bandpass filter with compact        size,” IEEE Microwave and Wireless Components Letters, vol.20, no.5, pp.262-264, May. 2010. (83citation by others)

  15. Y. C. Li, X. Y. Zhang,        and Q. Xue, “Bandpass filter using discriminating coupling for extended        out-of-band suppression,” IEEE Microwave and Wireless Components        Letters, vol.20, no.5, pp.369-371, May. 2010. (28citation by others)

  16. X. Y. Zhang*        and Q. Xue, “Harmonic-suppressed bandpass filter based on discriminating        coupling,” IEEE Microwave and Wireless Components Letters, vol.19, no.11, pp.695-697, Nov, 2009. (33citation by others)

  17. X. Y. Zhang*,        J. Shi, J.-X. Chen and Q. Xue, “Dual-band bandpass filter design using a        novel feed scheme,” IEEE Microwave and Wireless Components Letters, vol.19, no.6, pp.350-352, Jun. 2009. (41citation by others)

  18. T. Yang, J.-X. Chen, X. Y. Zhang        and Q. Xue, “A dual-band out-of-phase power divider,” IEEE Microwave        and Wireless Components Letters, vol.18, no.3, pp.188-190,        Mar. 2008. (33citation by others)

  19. X. Y. Zhang*, J.-X. Chen, Q. Xue and S.-M. Li,        “Dual-band bandpass filters using stub-loaded resonators,” IEEE        Microwave and Wireless Components Letters, vol.17, no.8, pp.583-585, Aug. 2007. (249citation by others)

  20. X. Y. Zhang*, J.-X. Chen and Q. Xue, “Broadband        transition between double-sided parallel-strip line and coplanar        waveguide,” IEEE Microwave and Wireless Components Letters,        vol.17, no.2, pp.103-105, Feb. 2007.(8citation by others)

  

6 Papers in IEEE Antennas and Wireless Propagation   Letters”

  1. H. W. Lai; D. Xue; H. Wong; K. K. So and X. Y. Zhang*,        Broadband circularly polarized patch antenna arrays with multiple layers structure,        IEEE Antennas and Wireless        Propagation Letters, in press.

  2. Q. W. Lin, H. Wong, X. Y. Zhang*,        and H. W. Lai, “Printed meandering probe-fed circularly-polarized patch        antenna with wide bandwidth,” IEEE Antennas and Wireless Propagation        Letters, vol.13, pp.654-657, 2014. (10citation by others)

  3. H.-l. Kao, C.-L.        Cho, X.        Y. Zhang* et al, “Bending effect of an inkjet-printed series-fed        two-dipole antenna on a liquid crystal polymer substrate,” IEEE        Antennas and Wireless Propagation Letters, vol.13, pp.1172-11757,        2014. (1citation by others)

  4. C. Wang, B. J. Hu and X. Y. Zhang, “Compact triband patch antenna with        large scale of frequency ratio using CRLH-TL structures,” IEEE        Antennas and Wireless Propagation Letters, vol.9, pp.744-747, 2010. (5citation by others)

  5. X.        Y. Zhang*, Q. Xue, B.-J. Hu, “A wideband antenna with dual printed        L-probes for cross-polarization suppression,” IEEE Antennas and        Wireless Propagation Letters, vol.5, pp.388-390, 2006. (16citation by others)

  6. Q. Xue, X.        Y. Zhang* and C. H. K. Chin, “A novel differential-fed patch antenna,” IEEE        Antennas and Wireless Propagation Letters, vol.5, pp.471-474, 2006. (29citation by others)

  

5 Papers in Electronics Letters”

  1. H.-L. Kao, X. Dai,X. Y. Zhang, C.-L. Cho, C.-S. Yeh, and H.-C. Chiu,        “An on-chip dual-band bandpass filter on a GaAs substrate,” Electronics        Lett., vol.49, no.18, pp.1157-1159, Aug. 2013.

  2. L. Gao, X.        Y. Zhang*, and Q. Xue, “Miniaturized bandpass filter using novel        feeding structure for harmonic suppression,” Electronics Lett., vol.48, no.22,        pp.1414-1415, Oct. 2012. (2citation by others)

  3. J. Shi, X.        Y. Zhang, K. W. Lau, J.-X. Chen and Q. Xue, “Directional coupler        with high directivity using metallic cylinders on microstrip line”, Electronics        Lett., vol.45, no.8, pp.415-417, Apr. 2009.        (10citation by others)

  4. X. Y.        Zhang*, J.-X. Chen, J.        Shi and Q. Xue, “High-selectivity dual-band bandpass filter using        asymmetric stepped-impedance resonators,” Electronics Lett., vol.45, no.1, pp.63-64,        Jan. 2009. (31citation by others)

  5. C. H. K. Chin, Q. Xue, H. Wong and X. Y. Zhang, “Broadband patch        antenna with low cross-polarisation,” Electronics Lett., vol. 43, no.3, pp. 137-138, Feb.        2007. (12citation by others)

Patents:

Chinese Patents

Granted

[1]X. Y. Zhang, X. F. Liu, J. X. Xu, X. L. Zhao, “A LTCC balun filter using two out-of-phase filtering circuitsGranted Chinese Patent (No. ZL 201410446156.2), Jan 25, 2017.

[2]X. Y. Zhang, X. H. Chen, L. Gao, “A high-efficiency wideband power amplifier with bandpass responses,” Granted Chinese Patent (NO. 201410061933.1), Jan 18, 2017.

[3]X. Y. Zhang, L. Gao, Y. Li, X. L. Zhao, “The filtering power divider with two passbands”, Granted Chinese Patent (NO. 201410083199.9), Jan 11, 2017.

[4]X. Y. Zhang, J. X. Xu, X. L. Zhao, “A LTCC bandpass filter using feeding structure for harmonic suppression” Granted Chinese Patent (No. ZL 201410083169.8), Jan 1, 2017.

[5]X. L. Zhao, K. X. Wang, C. D. xue, X. Y. Zhang, “A compact filtering rat-race hybrid” Granted Chinese Patent (No. ZL 201410446156.2), June 29, 2016.

[6]X. Y. Zhang, K. X. Wang, W. Duan, X. L. Zhao, B. J. Hu “Gysel power divider with high power divider ratio,” Granted Chinese Patent (No. 201310708943.5), Dec. 2015.

[7]X. Y. Zhang, X. Dai, Z. Y. Cai, B. J. Hu, “A wide stopband LTCC bandpass filter based on the cancellation of magnetic and electric coupling”, Granted Chinese Patent (No. 201310096832.3), Nov 11 2015.

[8]X. Y. Zhang, K. X. Wang, T. Mo and D. Xue, “Miniaturized high-isolation and broadband antenna adopting differential feed and multilayer paster structures, ” Granted Chinese Patent (No. ZL 201310186686.3), Oct. 28, 2015.

[9]X. Y. Zhang, X. Dai, N. Zhang, B. J. Hu, “Wide-stopband LTCC bandpass filter based on discriminating coupling”, Granted Chinese Patent (No. ZL 201310273977.6), Jul. 29, 2015.

[10]X. Y. Zhang, K. X. Wang, F. L. Yu, C. Li, B.J. Hu, “Unequal power divider integrated with bandpass response”, Granted Chinese Patent (No. ZL 201210298068.3), Jan. 28, 2015.

[11]X. Y. Zhang, L. Gao, “Miniaturized dual-band bandpass filter with tunable lower passband”, Granted Chinese Patent (No. 201110392959.0), Nov. 12, 2014.

[12]X. Y. Zhang, C. Li, F. L. Yu, K. X. Wang, B. J. Hu, “Equal power divider integrated with bandpass response Granted Chinese Patent (No. 201210298383.6), Oct. 08, 2014.

[13]X. Y. Zhang, X. Dai, H. L. ZhangA circular-polarized differential patch antennaGranted Chinese Patent (No. 201110344178.4), Jun. 2014.

[14]X. Y. Zhang, B. J. Hu, Y. C. Li, X. Huang, “Tunable balanced RF bandpass filter with constant fractional bandwidth”, Granted Chinese Patent (No. 201110142337.2), Apr. 2, 2014.

[15]X. Y. Zhang, L. Gao, “Miniaturized high-selectivity tri-band bandpass with independent control passbands”, Granted Chinese Patent (No. 201110392934.0), Apr. 2, 2014.

[16]X. Y. Zhang, B. J. Hu, Y. C. Li, X. Huang, “Tunable balanced RF bandpass filter with constant absolute bandwidth”, Granted Chinese Patent (No. 201110392934.0), Feb. 26, 2014.

[17]X. Y. Zhang, Y. F. Cao, X. Dai, and Y. W. Zhang, “High selective Dual-Band Bandpass Filter With Independently-Tunable Passbands,”Granted Chinese Patent (No.ZL201110370498.7), Feb.12 2014.

Filing

[18]X. Y. Zhang, Z.H. Li, Y.F. Cao, X.L. Huang, J. Fang, G.X. Peng, High gain and low profile vehicle antenna Filed patent: CN 201710068187.2, Filed date: Feb. 08, 2017.

[19]X. Y. Zhang, D. Xue, Y. F. Wu, Y. Zhang, ”Compact dual-band interleaved multi-beam array based on filtering elements,” Filed patent: CN 201610945445.6, Filed date: Oct. 26, 2016.

[20]X. Y. Zhang, J. Liu and Z. X. Du, “A high-efficiency dual-band rectifier” Field Patent: CN 201610712160.8, Field Date: Aug. 24. 2016.

[21]X. Y. Zhang, J. X. Xu, X. Q. Song, “A LTCC filtering switch based coupling control” Filed patent: CN 201610630135.5, Filed date: Jul. 31 2016.

[22]X. Y. Zhang, X. Q. Song, J. X. Xu, “A Sharp Roll-off Diplexer Based on Mixed Bandpass and Bandstop Structure” Filed patent: CN 201610630134.0, Filed date: Jul. 31 2016.

[23]X. Y. Zhang, Y. Zhang, and Y.-M. Pan, Dual-band filtering antenna array using filtering antenna elements for mutual coupling suppression, Filed patent: CN 201610624802.9, Filed date: Nov. 09, 2016.

[24]X. Y. Zhang, J. K. Lin, B. Y. Xu, B. Li, and X. D. Mai, “A controllable single coil dual-band wireless power transfer system,” Filed patent: CN 201610525748.2, Filed date: Jul. 5, 2016.

[25]X. Y. Zhang, J. K. Lin, B. Y. Xu, B. Li, “A planar high efficiency dual-band wireless power transfer system,” Filed patent: CN 201610463153.9, Filed date: Jun. 21, 2016.

[26]X. Y. Zhang, Q. W. Lin, J. K. Lin, B. Li, “High-efficiency rectifier with extended input power range based on two parallel sub-rectifying circuits,” Filed patent: CN 201510271827.0, Filed date: May 25, 2016.

[27]Y. M. Pan, P. F. Hu, X. Y. ZhangDielectric Resonator Antenna with filtering performance” Granted Chinese Patent (No. 201610345948.X), May 2016.

[28]X. Y. Zhang, Y. L. Lin, J. K. Lin, “ High efficiency microwave rectifier with extended bandwidth,” Filed patent: CN 201610261288.7, Filing date: Apr. 25, 2016.

[29]X. Y. Zhang, W. Duan, Y. M. PanDual-polarized filtering antenna with high selectivity and low cross polarization,” Filed patent: 201610209989.6Filing dateApr. 062016.

[30]X. Y. Zhang, J. K. Lin, Z. X. Du, B. Li, “Efficiency-Enhanced Wireless Power Transfer Based on Tightly-Coupled Dual Resonators at Both Transmitting and Receiving Ends,” Filed patent: CN 201610173393.5, Filed date: Mar 24, 2016.

[31]X. Y. Zhang, C. D. Xue, B. Li, A wireless power transfer system using mixed electric and magnetic coupling for frequency splitting suppression Filed patent: CN 201510971347.5, Filed date: Dec. 20, 2015.

[32]X. Y. Zhang, Q. W. Lin, Z. X. Du, “A High-efficiency differential rectifier with resistance compression network,” Filed patent: CN 201510957158.2, Filed date: Dec.12, 2015.

[33]X. Y. Zhang, Z. X. Du, B. Li, X. L. Zhao, “A High-efficiency rectfier,” Filed patent: CN 201510843451.6, Filed date: Nov.27, 2015.

[34]X. Y. Zhang, Z. X. Du, Y. L. Lin, X. L. Zhao, “An Unequal Wilkinson Power Divider with Size Miniaturization,” Filed patent: CN 201510843212.0, Filed date: Nov.26, 2015.

[35]X. L. Zhao, X. Y. Zhang, J. X. Xu, M. Tang, “A ultra-wideband power divider”, Filed patent: CN 201510698936.0, Filed date: Oct 22 2016.

[36]X. L. Zhao, X. Y. Zhang, J. X. Xu, “A LTCC diplexer based on common resonator”, Filed patent: CN 201510582855.4, Filed date: Sep 14 2015.

[37]X. Y. Zhang, Q. Y. Guo, D. Xue, X. L. Zhao, “Compact diplexer with wide stopband and high isolation,” Filed patent: PRC 201510536746.9, Filed date: Aug. 27, 2015.

[38]X. Y. Zhang, Q. Y. Guo, D. Xue, X. L. Zhao, “Compact crossover with filtering performance,” Filed patent: PRC 201510540602.0, Filed date: Aug. 27, 2015.

[39]X. Y. Zhang, W. Duan, T. Mo, Y. M. PanFiltering patch antenna without extra filtering circuit,” Filed patent: 201510536923.3Filing dateAug. 262015

[40]X.Y. Zhang, Y. Zhang, L. Gao, and X.-L. Zhao, Dual-band power divider with fitering performance, Filed patent: CN 201510525835.3, Filed date: Nov. 25, 2015.

[41]X.Y. Zhang, Q.-Y. Guo, Y. Zhang, and X.-L. Zhao, LTCC bandpass filter with third and fifth harmonic suppression based on discriminating coupling, Filed patent: CN 201510519782.4, Filed date: Feb. 17, 2015.

[42]X.-L. Zhao, Y. Zhang, and X.Y. Zhang Compact quad-band bandpass filter for DNS/WLAN/WIMAX/5G WIFI applications, Filed patent: CN 201510517415.0, Filed date: Nov. 11, 2015.

[43]X. L. Zhao, J. X. Xu, L. Gao, X. Y. Zhang, “A tunable power divider with bandpass responses”, Filed patent: CN 201410714749.2, Filed date: Nov. 29 2014.

[44]X. Y. Zhang, J. X. Xu, Q. Y. Guo, X. F. Ye, X. L. Zhao, “A millimeter-wave bandpass filter using discriminating coupling for harmonic suppression” Filed patent: CN 201410445965.1, Filed date: Sep.03 2014.

[45]X.Y. Zhang, Y. Zhang, Y.M. Pan, and W. Duan, Low profile dual-band filtering patch antenna, Filed patent: CN 201611051345.5, Filed date: Nov. 25, 2016

US Patents

[46]X. Y. Zhang, W. Duan, Y. M. Pan, “Dual-polarized filtering antenna with high selectivity and low cross polarization,” Filling number: 15173597Filing date: June 3, 2016.

[47]X.Y. Zhang, X. F. Liu, J. X. Xu, X. L. ZhaoLTCC balun filter using two out-of-phase filtering circuits,” Filling number: 15027370Filing date: Apr. 5, 2016.

[48]X.Y. Zhang,Y. Zhang, and Y.M Pan, Dual-band filtering antenna array using filtering antenna elements for mutual coupling suppression, Filling number: ****, Filing date: Dec 30, 2016.

[49]X.Y. Zhang,Y. Zhang, Y.M Pan, and W. Duan,  Low profile dual-band filtering patch antenna , Filling number: ****, Filing date: Jan 12, 2017.

[50]X. Y. Zhang, C. D. Xue, B. Li,A wireless power transfer system using mixed electric and magnetic coupling for frequency splitting suppression, Filing number: PCT/CN2015/097979.

[51]X. Y. Zhang, D. Xue, Y. F. Wu, Y. Zhang, ”Compact dual-band interleaved multi-beam array based on filtering elements,” Filing number: PCT/CN2016/110020, Filing date: Oct. 26, 2016.