Manoj Kumar Garg scite author profile

Manoj Kumar Garg

5Publications

15Citation Statements Received

43Citation Statements Given

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Affiliations

Jaypee Institute of Information Technology, Guru Gobind Singh Indraprastha University

Publications

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PBG Structured Compact Antenna With Switching Capability in Lower and Upper Bands of 5g

Saini¹,

Garg²

2020

PIER M

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A novel integrated compact antenna with photonic band gap (PBG) structure, having switching capability between lower and upper bands of 5G cellular communication is proposed. The proposed antenna can operate in the lower band (3.1 GHz to 3.5 GHz) as well as in the upper band (24 GHz to 27 GHz) of 5G cellular communication. Two radiating patches for the aforementioned frequency bands are developed in the same structure. A small patch for the upper-frequency band is inserted into a rectangular slot made in a large patch of the lower-frequency band. Both patches radiate at different times with the same ground. Two PIN diodes have been used to excite both patches at different times. The results indicate that the antenna has higher gain and wider bandwidth than the conventional antenna without a PBG structure. INTRODUCTIONWireless communication technology is evolving at a fast pace. 5G is a next-generation wireless communication technology, which provides support for very high speed data transfer. This technology would enable internet of things (IoT) and robotics applications to work effectively [1,2]. With 5G, an integrated compact antenna is required that can transmit and receive the signal within the proposed lower and upper bands. Along with the conventional lower band, 5G technology also works in an upper band (millimeter wave) to achieve a larger bandwidth, higher data transfer rate, and low latency. Many researchers have proposed 5G microstrip antennas for lower and upper bands respectively [3][4][5][6][7][8][9][10][11][12][13][14]. Recently, photonic band gap (PBG) structures have attracted the attention of researchers in antenna design due to the property of lattice periodicity in space. It is because it can efficiently suppress the surface waves and higher order harmonics. The conventional microstrip antennas have the disadvantages of lower efficiency and narrow bandwidth due to the effect of surface waves [15,16]. PBG structures provide stopbands, which eliminate the propagation of some frequencies, which affects radiation properties of antennas [17][18][19][20][21][22][23][24][25][26][27][28]. Zaidi et al. in [17] have designed a microstrip patch antenna at millimetre wave frequencies using a PBG cover and PBG substrate. They have reported gain improvement from 7.77 dB to 15.52 dB, but their reflection coefficient (S 11 ) has increased significantly from −31.24 dB to −17.26 dB. In [18], a design strategy using a PBG structure on ground plane is used to achieve wider bandwidth for patch antenna. The authors have reported an improvement in the impedance bandwidth from 3.72% to 31.9% at centre frequency 9 GHz after adding PBG on the ground plane. In [19,20], the works reported also show enhancement in gain and bandwidth. The works attempted so far in the literature are either in the low-frequency band or in the upper frequency band. Recently, a new class of antennas using metamaterials has attracted the interest of many researchers. These artificial materials can enhance the characteristics of miniaturized a...

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Comparative Performance Evaluation of Convolutionally Coded and LDPC Coded OFDM System over AWGN and SUI-5 Fading Channel

Goel

Garg

2012

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Multi-Band and Multi-Parameter Reconfigurable Slotted Patch Antenna with Embedded Biasing Network

Garg¹,

Saini²

2019

IJACSA

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RF PIN diodes are used to achieve reconfigurability in frequency, polarization, and radiation pattern. The antenna can be used in different bands by controlling ON and OFF states of two PIN diodes using the embedded biasing network (EBN). The antenna can be used for ultra-wideband (UWB) applications (1.0 GHz to 15.2 GHz) with a resonant frequency of 9.2 GHz. Besides ultra-wideband, it can also be switched to other bands (C, X, and Ku) with different operating frequencies (5.75 GHz, 12.3 GHz, and 15.5 GHz) at other biasing combinations. With this type of antenna, Linear and Circular polarization are achievable. The radiation pattern reconfigurable behavior in the vertical plane has also been achieved. Single Design of the proposed antenna is optimized for the multi-band and multi-parameter reconfigurability applications.

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C band, X band and Ku band corner Arc Microstrip Patch Antenna with T-slot on Partial Ground Plane

Dwivedi¹,

Garg²,

Katariya³

et al. 2017

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Extracted LC model of mono-pole antenna with T-slot for UWB application

Garg

Saini

Kumar

et al. 2016

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Manoj Kumar Garg

PBG Structured Compact Antenna With Switching Capability in Lower and Upper Bands of 5g

Comparative Performance Evaluation of Convolutionally Coded and LDPC Coded OFDM System over AWGN and SUI-5 Fading Channel

Multi-Band and Multi-Parameter Reconfigurable Slotted Patch Antenna with Embedded Biasing Network

C band, X band and Ku band corner Arc Microstrip Patch Antenna with T-slot on Partial Ground Plane

Extracted LC model of mono-pole antenna with T-slot for UWB application

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