- [1] Y. J. Wu , L. W. Li , J. H. Chen , H. M. Yuan , and Y. L. Ban* , A novel ultra-wideband antenna with distributed inductance for wireless USB dongle attached to laptop computer
- [2] Y. J. Wu , H. M. Yuan , Y. L. Ban* , and J. H. Chen , Printed coupled-fed PIFA for seven-band GSM/UMTS/LTE WWAN mobile phone
- [3] F. Ye , Z. X. Xie , S. C. Sun , J. H. Chen , C. Q. Lei* , and Y. L. Ban , Compact coupled-fed PIFA employing T-shaped monopole with two stubs for eight-band LTE/WWAN in internal mobile phone
- [4] J. H. Guo , L. W. Li , S. C. Sun , J. H. Chen , and Y. L. Ban* , Printed wideband antenna with chip-capacitor-loaded inductive strip for LTE/GSM/UMTS WWAN wireless USB dongle applications
- [5] Y. J. Wu , L. W. Li , J. H. Chen , Y. L. Ban* , and Z. Chen , Bandwidth enhancement of LTE/WWAN printed mobile phone antenna using slotted ground structure
- [6] Y. J. Wu , J. L. W. Li* , J. H. Chen , and Y. L. Ban , Ultrawideband antenna for LTE/GSM/UMTS wireless USB dongle applications
- [7] J. H. Guo , L. W. Li , S. C. Sun , J. H. Chen , and Y. L. Ban* , Printed monopole antenna with a long parasitic strip for LTE/GSM/UMTS wireless USB dongle operation
- [8] W. Hu , L. W. Li , J. H. Chen* , and Y. L. Ban , Printed slot antenna for seven-band GSM/UMTS/LTE operation in the internal mobile phone
- [9] W. Hu , L. W. Li , S. C. Sun , and Y. L. Ban* , Compact coupled-fed wideband antenna for internal eight-band LTE/WWAN tablet computer applications
- [10] W. Hu , L. W. Li , J. H. Chen , and Y. L. Ban* , Printed multi-resonance antenna embedding two inductors in radiating strips for internal mobile phone LTE/WWAN operation
- [11] W. Hu , L. W. Li , J. H. Chen , and Y. L. Ban* , Printed wideband nothced antenna for wireless USB dongle attached to laptop computer
- [12] L. W. Li , J. H. Chen , Y. L. Ban* , and Z. Chen , Novel surface-mounted antenna with a chip capacitance embedded for LTE/WWAN wireless USB dongle applications,
- [13] R.Li , L. W. Li , C. L. Liu , and Y. L. Ban* , Small-size wideband monopole with distributed inductive strip for seven-band WWAN/LTE mobile phone
- [14] L. W. Li , S. C. Sun , Y. L. Ban* , and Z. Chen , rinted antenna for penta-band WWAN tablet computer appication using embedded parallel structure
- [15] Y. J. Wu , L. W. Li , J. H. Chen , and Y. L. Ban* , Small-size printed coupled-fed embedding two inductors in radiating strips for internal mobile phone LTE/WWAN operation
- [16] Y. J. Wu , L. W. Li , S. Yang , J. H. Chen , and Y. L. Ban* , Low-profile printed octaband LTE/WWAN mobile phone antenna using embedded parallel resonant structure
- [17] Y. Kang , J. Guo , L. W. Li , C. L. Liu , and Y. L. Ban* , Small-size coupled-fed antenna with two printed distributed inductors for seven-band WWAN/LTE mobile handset
- [18] K. Kang , L. W. Li , P. P. Li , S. C. Sun , and Y. L. Ban* , Compact eight-band frequency reconfigurable antenna for LTE/WWAN tablet computer applications
- [19] L. W. Li , K. Kang , Z. Chen , Y. L. Ban* , and Z. X. Chen , Two-strip narrow-frame monopole antenna with a capacitor loaded for hepta-band smartphone applications
- [20] L. W. Li , K. Kang , Z. Chen , Z. X. Chen , and Y. L. Ban* , Decoupled closely-spaced hepta-band antenna array for WWAN/LTE smartphone applications