A compact highly isolated two‐ and four‐port ultrawideband Multiple Input and Multiple Output antenna with Wireless LAN and X‐band notch characteristics based on Defected Ground Structure

Kumar, Praveen; Ali, Tanweer; Pai, M. M. Manohara

doi:10.1002/dac.5331

Cited by 12 publications

(5 citation statements)

References 45 publications

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“…There could be multiple frequency components in the input signal. For such signals, group delay denotes the system's phase linearity and is defined by (3) [24], [25]. A group delay of less than 1 ns is considered acceptable.…”

Section: Group Delaymentioning

confidence: 99%

A novel octagonal slot circular compact ultrawideband antenna with detailed frequency and time-domain analysis

Kannale¹,

Biradar²

2023

Bulletin EEI

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With time, the device's reliance on wireless communication and its users grows tremendously. The ultrawideband (UWB) technology offers a 7.5 GHz uncontrolled bandwidth. Because it allows for larger data rates over a short distance, UWB technology is the current and future requirement of new generation mobile networks. As a result, a novel octagonal slot circular compact UWB antenna with detailed frequency and time-domain analysis is proposed in this research. Throughout the UWB range, the hexagonal-shaped circular radiator aids in reaching better S11 parameters (S11-10 dB). The modified trapezoidal like partial ground plane allows for a wide bandwidth. The proposed UWB antenna operates at frequencies ranging from 3.2 to 13.1 GHz, allowing for a bandwidth of 9.9 GHz and a fractional bandwidth of 121.4%. Voltage standing wave ratio (VSWR) is seen to be in the range of 1 to 2 throughout this UWB range. Throughout the operational bandwidth, the antenna's gain ranges from 2.8 to 4.1 dB. The suggested UWB antenna has the advantages of being small, having superior impedance matching, a simple design, and having a high gain, all of which can be used to deploy the antenna for the aforementioned purposes.

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Section: Group Delaymentioning

confidence: 99%

A novel octagonal slot circular compact ultrawideband antenna with detailed frequency and time-domain analysis

Kannale¹,

Biradar²

2023

Bulletin EEI

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“…As ultrawideband antennas can enlarge the communication capacity 1,2 and multiple-input-multiple-output (MIMO) antennas can minimize multipath fading, [3][4][5] ultrawideband MIMO antennas have been popularly applied in wireless communication. For example, in order to simultaneously serve GSM900/1800 (825-960/1710-1920 MHz) for 2G mobile communication, wideband code division multiple access (WCDMA), time division-synchronous code division multiple access (TD-SCDMA), and CDMA2000 (1880-2170 MHz) for 3G systems, LTE2300/2600 (2300-2690 MHz) for 4G communication, various 5G (703-803/2515-2675/3400-3800/4800-5000 MHz) systems, and Wi-Fi (5150-5925 MHz) communication, an ultrawideband MIMO antenna with bandwidth of more than 157.6% is in great need.…”

Section: Introductionmentioning

confidence: 99%

Compact ultrawideband MIMO slot antenna with high isolation

Chen,

Ye,

Jiang

et al. 2024

Int J Communication

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SummaryAn ultrawideband multiple‐input‐multiple‐output (MIMO) slot antenna with a small size and high isolation is introduced. Two multi‐stepped microstrip lines are used to feed the MIMO antenna and the ground plane is designed in a defective structure for achieving good impedance matching in an ultrawide frequency range. A 3T‐shaped strip is utilized to diminish the coupling between the two microstrip feed lines for isolation improvement over the operating band. Two open‐end rectangular slots are attached in the ground plane of the MIMO antenna to generate anti‐phase current for further enhancing the isolation. By using this novel method, a compact ultrawideband MIMO slot antenna is designed and measured. It obtains an ultrawide bandwidth of 162.0%, ranging from 0.63 to 6 GHz, and excellent isolation of beyond 20 dB. Additionally, our MIMO antenna achieves a very low envelope correlation coefficient (ECC) of below 0.005, indicating its good diversity performance.

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“…There are only a limited number of research papers on UWB MIMO antennas that incorporate more than two elements. A planar fourelement UWB-MIMO antenna system is presented in previous works, [21][22][23][24][25][26][27][28][29] with four antennas placed orthogonal to its adjacent elements. The utilization of orthogonal placement of antenna elements is an effective way to achieve good isolation between the elements.…”

Section: Introductionmentioning

confidence: 99%

Three‐element ultrawideband MIMO antenna based on shared‐radiator structures with high efficiency and gain

Xue,

Li,

et al. 2024

Micro & Optical Tech Letters

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This letter presents a novel three‐port ultrawideband (UWB) multi‐input‐multi‐output (MIMO) antenna that covers the sub‐6 GHz (between 1.7 and 6 GHz) frequency band for wireless device applications. The proposed antenna consists of two parts: a dipole and two centrosymmetric slot antennas with shared structures. The radiating arm of the dipole can be reused as the large slot ground without increasing the size. The novel circular slot antenna etched on the radiator and circular microstrip feed line are designed to achieve wide impedance bandwidth. Meanwhile, four chamfers are loaded at the corners of the dipole to further optimize the impedance match in the whole frequency band. The physical dimension of the proposed three‐port MIMO antenna is 70 × 45 × 0.762 mm3. Experimental results validate that the reflection coefficient remains lower than −12 dB and the port isolation is better than 12 dB in the entire operational bandwidth without any decoupling network. The measured average peak gains are up to 5.6 dBi for all three ports, accompanied by a radiation efficiency of 90% across the frequency spectrum. With the advantages of simple design, high gain and high radiation efficiency, the proposed three‐element MIMO antenna design is well‐suited for implementation in UWB applications.

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A compact highly isolated two‐ and four‐port ultrawideband Multiple Input and Multiple Output antenna with Wireless LAN and X‐band notch characteristics based on Defected Ground Structure

Cited by 12 publications

References 45 publications

A novel octagonal slot circular compact ultrawideband antenna with detailed frequency and time-domain analysis

A novel octagonal slot circular compact ultrawideband antenna with detailed frequency and time-domain analysis

Compact ultrawideband MIMO slot antenna with high isolation

Three‐element ultrawideband MIMO antenna based on shared‐radiator structures with high efficiency and gain

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