A low‐loss compact six‐bit DMTL phase shifter for phased array antenna applications

Teymoori, Mir Majid; Dousti, Massoud; Afrang, Saeid

doi:10.1002/cta.2871

Cited by 7 publications

(2 citation statements)

References 31 publications

(61 reference statements)

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“…The second element is the phase shifter which is employed to provide appropriate progressive phase shift or time delay between the signals in order to steer the beam in the desired direction. [25][26][27][28] The position of the phase shifter in a channel gives rise to different phased array architectures, for example, radio frequency (RF) path, local oscillator (LO) path, or intermediate frequency (IF) path which are discussed in detail in Section 4. Every architecture has its own advantages and constraints.…”

Section: Elements Of a Phased Array Systemmentioning

confidence: 99%

Review and comparison of different limited scan phased array antenna architectures

Singhal

Hasan

2021

Circuit Theory & Apps

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Phased array antenna or beamformer plays key role in many emerging wireless applications, be it industrial such as 5G wireless communication and RADAR technology or commercial such as autonomous driving, imaging, and so on. Depending upon the application and design constraints such as power, area, and hardware cost, there are many architectures available in the open literature for designing a beamformer. The power consumption and the hardware cost become the two major limiting factors while choosing the specific phased array antenna for commercial applications. In order to reduce the hardware cost, designers try to limit the scanning range of the beamformer by reducing the number of control elements generally the phase shifters. These beamformers are called limited scan phased array antenna (LSPAA). These are proving to be useful in many commercial applications due to their reduced design cost. In this paper, we provide a detailed review of the various architectures present in literature for LSPAA design and a comparison between several of them with respect to scanning range, sidelobe level (SLL), and so on. In addition, a figure-of-merit is also proposed for comparison between the different architectures.

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Section: Elements Of a Phased Array Systemmentioning

confidence: 99%

Review and comparison of different limited scan phased array antenna architectures

Singhal

Hasan

2021

Circuit Theory & Apps

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“…Phase shifters are the key components of transmit-receive (T/R) modules and have been widely used in phased array radar systems. [1][2][3] Considering the importance of antiinterference and wideband imaging performance, wideband passive radars have become a research focus. [4][5] Additionally, tunable devices have also attracted great interest in recent years due to their reconfigurability.…”

Section: Introductionmentioning

confidence: 99%

Magnetically Tunable Wideband Ferrite-Based Metamaterial Phase Shifter

Yao¹,

Wang²,

Lei³

et al. 2021

Eng. Sci.

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Tunable phase shifters with wide bandwidth are highly demanded for phased array radar systems. However, most wideband phase shifters are not tunable, while tunable phase shifters operate at a very narrow band. Here, we present a magnetically tunable wideband ferrite-based metamaterial phase shifter by periodically arranging ferrite block and air-gap. Compared to the conventional phase shifter, the operation bandwidth of the metamaterial phase shifter increases significantly because of the existence of a new resonant peak. Meanwhile, the phase shift of the metamaterial phase shifter can be altered by changing the applied magnetic field. The proposed phase shifter has low insertion loss and large phase shift value, which provides a way to the design of tunable wideband phase shifters.

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6-Bit Ka-Band DMTL Phase Shifter Using Parallel LC Circuits

Afrang

2022

Circuits Syst Signal Process

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A low‐loss compact six‐bit DMTL phase shifter for phased array antenna applications

Cited by 7 publications

References 31 publications

Review and comparison of different limited scan phased array antenna architectures

Review and comparison of different limited scan phased array antenna architectures

Magnetically Tunable Wideband Ferrite-Based Metamaterial Phase Shifter

6-Bit Ka-Band DMTL Phase Shifter Using Parallel LC Circuits

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