Multi‐beam steered harmonic pattern synthesis in timed antenna array with optimized and pre‐defined RF switching

Trans Emerging Tel Tech

Mandal

2023

Self Cite

The possibilities of achieving beamforming antenna arrays for beyond fifth generation (B5G) communication systems by controlling the inherently generated harmonic beam patterns in “time modulation” based antenna arrays, are proposed in this article. The idea of “time modulation” is to assimilate an additional dimension “time” by using high‐speed switches for synthesizing the array radiation patterns. This in turn generates an infinite number of harmonic frequency patterns apart from the main beam at the fundamental frequency. In general, harmonic frequency patterns may be regarded as wastage of power, but with proper controlling, these spatially independent patterns created at multiple harmonics can be selectively utilized for specific purposes. In this article, the lower‐order harmonic frequency patterns of “time modulated” linear arrays (TMLA) are exploited to produce simultaneous multi‐beamforming for B5G multipoint communication. The capabilities of selective harmonic frequency patterns for multi‐beamforming are mathematically verified by proposing different beamforming switching network combinations. In this regard, phase centered motion (PCM) based TMLA is examined for simultaneous, as well as, monopulse beam scanning. PCM‐based unidirectional and bidirectional beamforming patterns with optimal time schemes are proposed. The mathematical validation of preprocessed symmetric and asymmetric time schemes, as well as, the PCM‐based optimized selective harmonic multi‐beamforming radiation patterns are discussed in detail to show the effectiveness of the proposed method.

Section: Asymmetric Time Scheme Formulationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Phase center motion based time modulated arrays with preprocessed time schemes for selective harmonic beamforming in B5G communication systems

Chakraborty

Trans Emerging Tel Tech

Mandal

2023

Self Cite

“…The harmonic beams are utilized for rectification as well as localization of the receiver, presuming retro‐directive nature 29 . Optimization methods are utilized to steer the harmonic beams in a localized direction by suppressing fundamental radiation 30–32 . Instead of lowering fundamental radiation, may well utilize it for information transmission, this allows the transmitter to be used as a wireless information and power transmitter (WIPT) 18 .…”

Section: Introductionmentioning

confidence: 99%

“…29 Optimization methods are utilized to steer the harmonic beams in a localized direction by suppressing fundamental radiation. [30][31][32] Instead of lowering fundamental radiation, may well utilize it for information transmission, this allows the transmitter to be used as a wireless information and power transmitter (WIPT). 18 With WIPT, the receiver is now utilized as a WIPT receiver to employ a single antenna system for multi-tone reception.…”

mentioning

confidence: 99%

Time‐modulated multi‐tone antenna array for wireless information and power transfer

Varma

Kumar

2022

Int J Communication

Self Cite

This paper aims to design a multi-tone radiator exploiting harmonic radiation characteristic of time-modulated antenna array for wireless information and power transmission (WIPT) and multi-operational WIPT receiver. The timemodulated linear antenna array (TMLAA) radiating simultaneously at modulating and harmonic frequencies separated in multiple switching periods is utilized as a multi-tone radiating system. TMLAA with suitable power in harmonic bands generates multi-tone radiation by employing an optimized switching sequence. The ON and OFF time instants of the TMLAA are optimized to suppress sidelobe level and enhance sideband level. A populationbased optimization algorithm, teaching learning based optimization (TLBO), is employed to optimize the ON and OFF instants of the TMLAA to suppress sidelobe level and enhance sideband level. TLBO is utilized for a 16-element TMLAA with minimizing cost function to achieve the above objectives. The 16-element TMLAA with optimized switching radiates multi-tone beams with a minimum of 5 dB peak power difference exploited as WIPT. The purpose of multi-operation is accomplished by utilizing the Wilkinson power divider in the receiver system; its power dividing capability is analyzed using applied wave research (AWR). A voltage doubler type rectifier is modeled for DC generation and is tested using AWR. The DC generating capability is tested for fixed power available at various frequencies, and the fixed desired frequency with various available power levels is tested. The results show that the designed circuitry provides a maximum of 80% power conversion efficiency (PCE).applied wave research (AWR), CST microwave studio, rectenna, teaching learning based optimization (TLBO), time-modulated linear antenna array, Wilkinson power divider, wireless information and power transfer (WIPT) | INTRODUCTIONWireless terminals' usage rapidly increased due to the explosive rate of device-to-device communication in the era of Internet of Things (IoT). With the development of wireless power transfer (WPT), the charging burden of wireless terminals with cables is lowered. The scheme of receiving electricity through the air by means of inductive coupling was

“…28 An alternatively radiating sumdifference pattern has been discussed with adjustable phase distributions through optimized switching schemes. 29,30 The flexibilities of the harmonic components have come up with cutting-edge applications suitable for multibeam steered patterns, [31][32][33] null pattern synthesis, 34 beam shaping, 35 element failure and detection, 36 radar applications, 37,38 and so on. These applications have further established the diversities and multifunctional capabilities of TMAs.…”

Section: Introductionmentioning

confidence: 99%

Power pattern synthesis of a moving phase center time modulated antenna array using symmetrically and asymmetrically positioned time schemes

Chakraborty¹,

Int J RF Mic Comp-Aid Eng

Mandal

2022

Self Cite

The advantages of exploiting the harmonic patterns in a time-modulated linear array (TMLA) is presented in this paper through mathematical validation and also applied for real-world applications like beam scanning. The inherently generated harmonics or sideband radiations (SRs) in TMLAs are normally considered as a loss of power in unwanted direction. The effect of SRs at the multiple harmonic frequencies is mathematically modeled and presented in this