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 IF 3.523

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 IF 1.622

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 IF 1.534

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 IF 1.09

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 IF 3.482

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 IF 3.476

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 IF 2.719

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 IF 1.675

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 Filter with 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 Letters Vol. 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 IF 1.09

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 IF 1.987

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 IF 1.09

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 IF 1.622

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 IF 1.09

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 IF 1.622

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 on multimode 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 IF 1.824

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 IF 2.293

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.