基本情况:
姓名:王荔田
学历学位:工学博士
职称:讲师
研究方向:射频集成电路设计,超导射频器件
邮箱:wanglitianrf@sina.com
办公地点:29-204
所在团队名称:微声电子学和射频IC设计
团队负责人:李翠平
可招收硕博专业:集成电路工程
项目:
1.广州市重大科技专项,5G声表面波多工器关键技术的研究及射频模组开发,主持,
纵向经费1,500,000
2.高隔离度XXXX滤波组件开发,主持,横向经费250,000
论文:
1. Design of Ultra-Wideband Balanced Bandpass Filter Based on Dual-Square Ring Configuration.
Qian, L.,Dou, Y.,Jiang, Y.,Li, H.,Wang, L.T*.Piezoelectrics and Acoustooptics, 2022, 44 (5).Scopus.
2. Research in nonlinearity of surface acoustic wave devices.
Tian, Y.,Wang, L.T*.,Wang, Y.,...Wu, J.,Wang, J.Micromachines,2021, 12(12), 1454.
中科院3区IF3.523
3.Transversal wideband bandpass filter with a wide stopband and multiple transmission zeros
Wang, L.T.,Xiong, Y.,Wang, Z.-P.,Gong, L.ETRI Journal, 2021, 43(1), pp. 133–140.
中科院4区IF1.622
4. Design of miniature high-temperature superconducting quadruplexer with wide stopband suppression.
Yue, H.,Tang, H.,Wang, L.T*,...Xie, Q.,Duan, J.Physica C: Superconductivity and its Applications, 2020, 579, 1353735中科院4区IF1.534
5. Dual-/tri-band bandpass filters with fully independent and controllable passband based on multipath-embedded resonators.
Xiong, Y.,Zhang, W.,Zhong, Y.-P.,Wang, L.T*.International Journal of Microwave and Wireless Technologies, 2020, 12(10), pp. 1012–1019.中科院4区IF1.09
6. Design of high selectivity narrowband eight-order high-temperature superconducting sextaplexer.Wang, L.-T.,He, M.,Xiong, Y.,...Chen, H.-H.,Ji, L.Superconductor Science and Technology, 2020, 33(11), 115016.中科院1区IF3.482
7. A OneM2M-Compliant Stacked Middleware Promoting IoT Research and Development.
Zhao, R.,Wang, L.T*Zhang, X.et al.IEEE Access, 2018, PP: 1-1.中科院3区IF3.476
8. Design of wide stopband dual-band bandpass filter with thirteen transmission zeros.
Wang, L.T., Y. Xiong,et al. IEEE Microwave and Wireless Components Letters.Vol.29, No.1, 2019. 32-34.中科院2区IF2.719
9. A High-Order L-Band HTS Filter for Sensitive Detecting
Wang, L.T., Y. Xiong,et al.,Journal of Superconductivity and Novel Magnetism, Volume 32, Issue 9, Pages 2849-2856.中科院4区IF1.675
10.Design of A Wideband Filter with Sharp Roll-Off
Xiong, Y.,Zhang, W.,Wang, L.T*.Journal of microwaves.2020. 36(02). CSCD
11. Design of Compact Transversal Wideband Bandpass Filterwith Wide Upper Stopband
Wang, L.T.,Xiong, Y.,et al.Progress In Electromagnetics Research M, Vol. 96, 79–87, 2020. EI
12.Ultra-Compact Bandpass Filter with Super Wide Upper Stopband
Xiong, Y., Zhang, W.,Wang, L.T*.Progress In Electromagnetics Research LettersVol. 92, 61-67, 2020. EI
13.Compact dual-/tri-/quad-band bandpass filters with independently frequency-tunable and switchable passbands
Li, Z.,Wang, L.T.,et al.International Journal of Microwave and Wireless Technologies,v 13,
n4,p 322-334, 2021.中科院4区IF1.09
14. Dual-wideband differential bandpass filter with intrinsic common-mode suppression based on hybrid transmission structure
Liang, Z.,Wang, L.T.,et al. International Journal of Microwave and Wireless Technologies,v 13, n 4, p 322-334, 2021.中科院4区IF1.987
15. A compact quad-band bandpass filter with mixed electric and magnetic coupling
Zhou, J.,Wang, L.T.,et al.International Journal of Microwave and Wireless Technologies, v 11, n 5-6, p 517-522, 2019.中科院4区IF1.09
16. Compact tri-wideband bandpass filter with multiple transmission zeros
Xiong, Y.,Wang, L.T*.,et al. ETRI Journal,Volume 41, Issue 1, Pages 117-123, 2019.
中科院4区IF1.622
17. Dual-wideband bandpass filter with independently controllable center frequencies and wide stopband
Xiong, Y.,Wang, L.T.,et al.International Journal of Microwave and Wireless Technologies,v 10, n 1, p 93-99, 2018.中科院4区IF1.09
18. Design of switchable and reconfigurable semi-lumped wideband bandpass filter
Xiong, Y.,Wang, L.T.,et al.ETRI Journal,v 39, n 5, p 756-763, 2017.中科院4区IF1.622
19.Compact Differential Tri-Band Bandpass Filter with Multiple Zeros Using Sext-Mode Stepped-Impedance Square Ring Loaded ResonatorGuo, Z.Y.,Wang, L.T.,et al.Progress In Electromagnetics Research C,Vol. 117, 73–87, 2021. EI
20. Design of dual-band bandpass filter with closely spaced passbands and multiple transmission zeros.
Y.Xiong,Wang, L.T.,et al.,Progress in Electromagnetics Research Letters.Vol.70, 2017.EI.
21. Design of tri-band and quad-band filters based onmultimode resonators.
Li. H.,Wang, L.T.,et al.,Electronic Components and Materials.vol.37, no.12, 2018. CSCD
22.Design of Dual-/Tri- Band BPF with Controllable Bandwidth Based on A Quintuple-mode resonator.Progress in Electromagnetics Research Letters, Volume 82, Pages 129-137, 2019. EI.
23. Compact tunable dual/Tri-band bandpass filters with multiple zeros.
Wang. Z.P,Wang, L.T.,et al.,IET Microwaves, Antennas and Propagation, Volume 13, Issue 7, Pages 1023-1030, June 12, 2019.中科院4区IF1.824
24. Growth of TlBa2Ca2Cu3O9epitaxial thin films by two-step method in argon
Xing. J.,Wang, L.T.,et al.,Chinese Physics Letters, Volume 38, Issue 2, 2021.
中科院3区IF2.293
25. Design of compact balanced bandpass filter with extremely wide stopband and common-mode suppression
Li. X. Q.,Wang, L.T.,et al.,Electronic Components and Materials.vol.39, no.10, 2020. CSCD
著作
Review on UWB Bandpass Filters.
Wang, L.T.,Xiong, Y.and He, M.IntechOpen,DOI: 10.5772/intechopen.87204.
专利:
1.一种台式机电源箱减震固定装置,实用新型;专利号:CN202120823081.0
2.一种台式机拔插式外置散热器,实用新型;专利号:CN202120826311.93.
3.手机射频网络信号检测系统V1.0,软件著作;专利号:2022SRE010538.