Your search keyword '"Li, Wenting"' showing total 11 results

1. Broadband High-Gain SIW Horn Antenna Loaded With Tapered Multistrip Transition and Dielectric Slab for mm-Wave Application.

Author

Chen, Yaling, Zhang, Long, He, Yejun, Mao, Chunxu, Wong, Sai-Wai, Li, Wenting, Chu, Peng, and Gao, Steven

Subjects

BROADBAND antennas, HORN antennas, DIELECTRICS, DIELECTRIC resonator antennas

Abstract

A substrate integrated waveguide (SIW) H-plane horn antenna loaded with tapered multistrip transition and dielectric slab is proposed for broadband high-gain operation. The broadband characteristic of the proposed antenna is obtained by loading a tapered multistrip transition. The theory of coupled resonator is introduced to reveal the mechanism of bandwidth enhancement. On the other hand, a dielectric slab is used to enhance the gain of the proposed antenna. The optimal length of this dielectric slab is determined based on the design principles of a dielectric rod with maximum gain. Besides, the tapered multistrip transition also contributes to the gain improvement by suppressing the feed radiation and prompting the transverse expansion of the surface wave. To verify the design theory and concept, a prototype operating at the K- and Ka-bands is fabricated and measured. The measurement results show that the impedance bandwidth of the proposed antenna is from 20.6 to 38.4 GHz (60%). Within the operating band, a peak realized gain of 19.1 dBi and excellent endfire radiation patterns with low cross polarization (<−30 dB) and high front-to-back ratio (FBR >20 dB) are achieved simultaneously. With its broad bandwidth, high gain, low cross polarization, and high FBR, the proposed antenna is promising for various millimeter-wave applications. [ABSTRACT FROM AUTHOR]

Published

2022

2. Dual-Band Circularly Polarized Transmitarray With Single Linearly Polarized Feed.

Author

Cai, Yuan-Ming, Li, Ke, Li, Wenting, Gao, Steven, Yin, Yingzeng, Zhao, Luyu, and Hu, Wei

Subjects

ANTENNA feeds, CIRCULAR polarization, MULTIFREQUENCY antennas, ANIMAL feeds, INSERTION loss (Telecommunication)

Abstract

This communication proposes a novel method to design a dual-band circularly polarized (CP) transmitarray (TA) antenna with a linearly polarized (LP) feed. By using this method, a shared-aperture dual-band TA is developed, which forms independent beams with right-hand circular polarization (RHCP) or left-hand circular polarization (LHCP) in two frequency bands with a single LP feed antenna. Four different CP TA prototypes operating at 12 and 14.2 GHz with different senses of CP and different beam directions are designed, and two of the prototypes are fabricated to validate the design concepts. A good agreement is obtained between the radiation patterns, gain curves, polarizations, and cross polarization levels measured and computed in both frequency bands. The proposed single-source dual-band CP TA design has advantages of simple structure, lightweight, easy fabrication, low cost, and high performance, making it a good candidate for varied applications. [ABSTRACT FROM AUTHOR]

Published

2020

3. Wideband High-Efficiency Circularly Polarized SIW-Fed S-Dipole Array for Millimeter-Wave Applications.

Author

Zhang, Long, Wu, Ke, Wong, Sai-Wai, He, Yejun, Chu, Peng, Li, Wenting, Wang, Kai Xu, and Gao, Steven

Subjects

APERTURE antennas, ANTENNA arrays, BANDWIDTHS, CIRCULAR polarization, MILLIMETER waves, PLANAR antennas

Abstract

A wideband high-efficiency millimeter-wave (mm-wave) circularly polarized (CP) array which is constituted by novel planar substrate integrated waveguide (SIW)-fed S-dipoles is presented in this communication. The proposed mm-wave CP S-dipole consists of two rotational symmetric curved arms and is fed differentially through aperture coupling, which features simple configuration and excellent performance. Detailed analysis is given to explain the operating principles of this element. It is noted that superior element performance including a wide impedance bandwidth of 43%, a wide 3 dB axial ratio (AR) bandwidth of 36%, and 1 dB gain bandwidth of 38% is achieved by the planar SIW-fed S-dipole. By feeding 64 in-phase S-dipole elements through a full-corporate SIW feeding network, a planar wideband highly efficient mm-wave $8 \times 8$ CP array is realized. To verify the design concept, a prototype operating at Ka-band is fabricated and measured. The measurement results indicate that the proposed array achieves a wide overlapped bandwidth of 27.6%, a high antenna gain of 25.2 dBic, and a high aperture efficiency of 89.9%. Attributed to the planar and robust array structure as well as its excellent performance, the presented array is a good candidate for various mm-wave applications. [ABSTRACT FROM AUTHOR]

Published

2020

4. A Novel Ultrawideband Transmitarray Design Using Tightly Coupled Dipole Elements.

Author

Cai, Yuan-Ming, Li, Wenting, Li, Ke, Gao, Steven, Yin, Yingzeng, Zhao, Luyu, and Hu, Wei

Subjects

*ULTRA-wideband antennas, *DIPOLE array antennas, *WAVELENGTHS, *BANDWIDTHS, *ELECTRIC lines

Abstract

One of the key challenges in transmitarray (TA) designs is its narrow bandwidth. To overcome this limitation, this paper proposes a novel design of ultrawideband TA antenna based on tightly coupled dipole arrays (TCDAs). The array consists of $20 \times 10$ unit cells, and each unit cell is composed of a pair of short dipoles connected with a section of meandered transmission line. The size of each unit cell is 20 $\text {mm} \times 10$ mm, which is about $0.2\lambda \times 0.1\lambda $ , where $\lambda $ is the wavelength in free space at the lowest working frequency of the TA. By utilizing the strong coupling between adjacent units of the TA, the bandwidth of the TA is improved significantly. To verify the design concept, one prototype of the proposed TA is fabricated and measured. The prototype demonstrates good performance over a bandwidth of 104%, i.e., from 3.0 to 9.5 GHz, which is significantly wider than that of other TAs reported in the literature. Within the working band of the TA antenna, the radiation pattern is stable and no distortion or splitting of the main beam of the antenna is observed. This is the first time that the TA based on TCDA is reported. [ABSTRACT FROM AUTHOR]

Published

2019

5. A Wideband Circularly Polarized Tightly Coupled Array.

Author

Zhang, Long, Gao, Steven, Luo, Qi, Li, Wenting, He, Yejun, and Li, Qingxia

Subjects

BROADBAND communication systems, POLARIZATION (Electricity), WIRELESS communications, ANTENNA arrays, MATHEMATICAL optimization

Abstract

Tightly coupled arrays (TCAs) have received considerable interests recently. Although various TCAs have been reported, they are generally limited to single or dual linear polarizations. Considering the importance of circularly polarization in various wireless systems, it is meaningful to design a circularly polarized (CP) TCA with a simple configuration. This communication presents a CP tightly coupled crossed dipole array (CP-TCCDA) with intrinsic CP feeding structure, which achieves wide overlapped impedance bandwidth and axial ratio (AR) bandwidth. An analysis is given to explain the principles of AR bandwidth improvement and is validated by the comparison of radiated E-fields between a CP-TCCDA and a conventional CP crossed dipole array. To verify the design concept, a $4 \times 4$ CP-TCCDA with elaborate feeding network is fabricated and measured. The measured results confirm that the proposed array achieves VSWR < 3 bandwidth from 2.06 to 6.46 GHz (3.14:1) and 3 dB AR bandwidth from 2.35 to 5.6 GHz (2.38:1), which are much wider than the bandwidth of an isolated element and a conventional array using the same element. [ABSTRACT FROM AUTHOR]

Published

2018

6. An Ultra-Wide-Band Tightly Coupled Dipole Reflectarray Antenna.

Author

Li, Wenting, Gao, Steven, Luo, Qi, Zhang, Long, and Cai, Yuanming

Subjects

*REFLECTARRAY antennas, *COUPLED mode theory (Wave-motion), *DIPOLE moments, *WAVELENGTH measurement, *ANTENNA radiation patterns

Abstract

A novel ultra-wide-band tightly coupled dipole reflectarray (TCDR) antenna is presented in this paper. This reflectarray antenna consists of a wideband feed and a wideband reflecting surface. The feed is a log-periodic dipole array antenna. The reflecting surface consists of $26 \times 11$ unit cells. Each cell is composed of a tightly coupled dipole and a delay line. The minimum distance between adjacent cells is 8 mm, which is about 1/10 wavelength at the lowest operating frequency. By combining the advantages of reflectarray antennas and those of tightly coupled array antennas, the proposed TCDR antenna achieves ultra-wide bandwidth with reduced complexity and fabrication cost. A method to minimize the phase errors of the wideband reflectarray is also developed and the concept of equivalent distance delay is introduced to design the unit cell elements. To verify the design concept, a prototype operating from 3.4 to 10.6 GHz is simulated and fabricated. Good agreement between simulated and measured results is observed. Within the designed frequency band, the radiation pattern of the TCDR antenna is stable and the main beam of the antenna is not distorted or split. The side lobe levels of the radiation patterns are below −11.7 dB in the entire operating band. It is the first time a tightly coupled reflectarray is reported. [ABSTRACT FROM PUBLISHER]

Published

2018

7. Polarization-Reconfigurable Circularly Polarized Planar Antenna Using Switchable Polarizer.

Author

Li, Wenting, Gao, Steven, Cai, Yuanming, Luo, Qi, Sobhy, Mohammed, Wei, Gao, Xu, Jiadong, Li, Jianzhou, Wu, Changying, and Cheng, Zhiqun

Subjects

*PLANAR antennas, *CIRCULAR polarization, *ANTENNA radiation patterns, *ANTENNA feeds, *PIN diodes

Abstract

A novel polarization-reconfigurable planar antenna is presented. The antenna consists of an electronically reconfigurable polarizer integrated with a printed slot. By changing the states of the p-i-n diodes on the polarizer, the linearly polarized (LP) waves radiated by the slot can be converted into either right-hand circularly polarized (RHCP) or left-hand CP (LHCP) waves. The polarizer contains 16 unit cells arranged as a $4\times 4$ array. The antenna radiates RHCP waves if the p-i-n diodes on the top side of the polarizer are switched ON, while LHCP waves are radiated if the p-i-n diodes of the bottom side of the polarizer are switched ON instead. The physical mechanisms of the antenna are discussed and the parametric study is carried out by full-wave simulations. To verify the concept, one prototype at 2.5 GHz is designed, fabricated, and measured. Good agreement between the measured and simulated results is obtained. The antenna achieves a gain ≥8.5 dBic in both RHCP and LHCP with an aperture efficiency of 70%. Advantages of the proposed design include electronically reconfigurable polarizations for RHCP or LHCP, low profile, low cost, high isolation between the dc bias circuit and RF signals, high power handling capability, and easy extension to large-scale arrays without increasing the complexity of the dc bias circuit. To the best of our knowledge, this is the first report of an electronically polarization-reconfigurable CP antenna with a single-substrate polarizer. [ABSTRACT FROM AUTHOR]

Published

2017

8. Single-Layer Wideband Circularly Polarized High-Efficiency Reflectarray for Satellite Communications.

Author

Zhang, Long, Gao, Steven, Luo, Qi, Li, Wenting, He, Yejun, and Li, Qingxia

Subjects

REFLECTARRAY antennas, TELECOMMUNICATION satellites, BANDWIDTHS, PROTOTYPES, BROADBAND communication systems

Abstract

This paper presents a single-layer circularly polarized reflectarray which achieves large bandwidth (BW) in terms of axial ratio (AR), gain, aperture efficiency (AE) and radiation pattern. By using a novel wideband S-shaped phasing element, an offset-fed reflectarray with 20° offset beam is designed based on the element angular rotation method. Theoretical analysis is given to analyze the effect of angular rotated elements on the performance of the reflectarray, which indicates that the AR BW of the reflectarray can exceed the AR BW of the feed horn. Furthermore, the influence of the differential spatial phase delay is analyzed quantitatively, and the performance of S-element-based reflectarrays with different aperture sizes are investigated and discussed. To verify these concepts, a 180 mm $\times180$ mm prototype with $15 \times 15$ elements is fabricated and measured. The measured results confirm that the proposed reflectarray achieves a 68.5% 3-dB AR BW (7 to 14.3 GHz) and a 47.8% 3-dB gain BW (8.6 to 14 GHz). Moreover, the AE is larger than 50% in a 33% BW and larger than 30% in a 64% BW. [ABSTRACT FROM AUTHOR]

Published

2017

9. Frequency-Agile Beam-Switchable Antenna.

Author

Gu, Chao, Gao, Steven, Sanz-Izquierdo, Benito, Parker, Edward A., Li, Wenting, Yang, Xuexia, and Cheng, Zhiqun

Subjects

ANTENNA design, STRUCTURAL optimization, FREQUENCY standards, VARACTORS, OMNIDIRECTIONAL antennas

Abstract

A novel antenna with both frequency and pattern reconfigurability is presented. The reconfigurability is achieved by integrating an active frequency selective surface (AFSS) with feed antenna. The smart FSS comprises a printed slot array loaded by varactors. A novel dc biasing arrangement is proposed to feed the slots vertically so that the unwanted effects caused by bias lines are minimized. A monopole antenna is designed to illuminate the AFSS. The resulting structure can operate in a frequency tuning range of 30%. By reconfiguring the different sections of active FSS cylinder into a transparent or reflector mode, the omnidirectional pattern of the source antenna can be converted to a directive beam. As an illustration, half of the AFSS cylinder is successively biased, enabling the beam switching to cover the entire horizontal plane over a range of frequencies. An antenna prototype was fabricated and measured. Experimental results demonstrate the capability of providing useful gain levels and good impedance matching from 1.7 to 2.3 GHz. The antenna offers a low-cost, low-power solution for wireless systems that require frequency and beam reconfigurable antennas. The proposed design consumes about 1000 times less dc power than the equivalent narrowband beam-switching antenna design using p-i-n diode-loaded AFSS. [ABSTRACT FROM PUBLISHER]

Published

2017

10. Inverted-S Antenna With Wideband Circular Polarization and Wide Axial Ratio Beamwidth.

Author

Zhang, Long, Gao, Steven, Luo, Qi, Young, Paul R., Li, Wenting, and Li, Qingxia

Subjects

CIRCULAR polarization, BROADBAND antennas, DIPOLE antennas, BROADBAND communication systems, BANDWIDTHS, GLOBAL Positioning System

Abstract

A novel broadband circularly polarized (CP) antenna with wide axial ratio (AR) beamwidth is proposed. It is composed of two curved arms shaped like an inverted “S.” The mechanisms of wideband CP operation and wide AR beamwidth are explained. To validate the concept, a prototype at C-band is manufactured and measured. Experimental results confirm that the antenna achieves an impedance bandwidth of 63% and a CP bandwidth of 42%. Furthermore, maximum AR beamwidth of 140° is achieved and wide AR beamwidth can be maintained in a frequency bandwidth of 35% in nearly all elevation planes. In addition, the antenna has the advantage of being easily extended to arrays. A four-element array using the proposed antenna is investigated through both simulations and experiments, and achieves 60% CP bandwidth and wide AR beamwidth. The proposed inverted-S antenna can realize wide CP bandwidth and wide AR beamwidth, and can easily form wideband CP arrays. [ABSTRACT FROM PUBLISHER]

Published

2017

11. Compact-Size Low-Profile Wideband Circularly Polarized Omnidirectional Patch Antenna With Reconfigurable Polarizations.

Author

Cai, Yuan-Ming, Gao, Steven, Yin, Yingzeng, Li, Wenting, and Luo, Qi

Subjects

OMNIDIRECTIONAL antennas, CIRCULAR polarization, PIN diodes, BROADBAND communication systems, MICROSTRIP antenna arrays

Abstract

A compact-size low-profile wideband circularly polarized (CP) omnidirectional antenna with reconfigurable polarizations is presented in this communication. This design is based on a low-profile omnidirectional CP antenna which consists of a vertically polarized microstrip patch antenna working in \textTM01/\textTM02 modes and sequentially bended slots etched on the ground plane for radiating horizontally polarized electric field. The combined radiation from both the microstrip patch and the slots leads to a CP omnidirectional radiation pattern. The polarization reconfigurability is realized by introducing PIN diodes on the slots. By electronically controlling the states of the PIN diodes, the effective orientation of the slots on ground plane can be changed dynamically and the polarization of antenna can be altered between left-hand circular polarization (LHCP) and right-hand circular polarization (RHCP). The proposed antenna exhibits a wide-operational bandwidth of 19.8% (2.09–2.55 GHz) with both axial ratio below 3 dB and return loss above 10 dB when radiates either LHCP or RHCP waves. Experimental results show good agreement with the simulation results. The present design has a compact size, a thickness of only $0.024\lambda$ and exhibits stable CP omnidirectional conical-beam radiation patterns within the entire operating frequency band with good circular polarization. [ABSTRACT FROM PUBLISHER]

Published

2016