J. B. L. Rao scite author profile

J. B. L. Rao

4Publications

62Citation Statements Received

16Citation Statements Given

How they've been cited

174

How they cite others

Affiliations

Sotera Defense Solutions (United States), United States Naval Research Laboratory, Radar (United States)

Publications

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Voltage-controlled ferroelectric lens phased arrays

Rao

Patel

Krichevsky

1999

IEEE Trans. Antennas Propagat.

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A new concept for phased arrays is proposed using a voltage-controlled ferroelectric lens. The ferroelectric lens concept uniquely incorporates bulk phase shifting-the array does not contain individual phase shifters-using ferroelectric material. This will reduce the number of phase shifters from (n2m) to (n+m), where n is the number of columns and m is the number of rows in a phased array. The number of phase shifter drivers and phase shifter controls is also significantly reduced by using row-column beam steering. Thus, the ferroelectric lens concept can potentially lead to low-cost phased arrays. This paper presents the ferroelectric lens concept, theoretical analysis and design, and experimental results. The results indicate that the ferroelectric lens concept is viable and sound. Various phasedarray configurations using ferroelectric lens are included. A brief discussion on ferroelectric materials is included along with information on a U.S. Department of Defense program to improve ferroelectric materials.

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Voltage controlled ferroelectric lens phased arrays

Rao¹,

Patel²

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Abstract-A new concept for phased arrays is proposed using a voltage-controlled ferroelectric lens. The ferroelectric lens concept uniquely incorporates bulk phase shifting-the array does not contain individual phase shifters-using ferroelectric material. This will reduce the number of phase shifters from (n2m) to (n+m), where n is the number of columns and m is the number of rows in a phased array. The number of phase shifter drivers and phase shifter controls is also significantly reduced by using row-column beam steering. Thus, the ferroelectric lens concept can potentially lead to low-cost phased arrays. This paper presents the ferroelectric lens concept, theoretical analysis and design, and experimental results. The results indicate that the ferroelectric lens concept is viable and sound. Various phasedarray configurations using ferroelectric lens are included. A brief discussion on ferroelectric materials is included along with information on a U.S. Department of Defense program to improve ferroelectric materials.Index Terms-Bulk phase shifting, ferroelectric materials/devices, lens antennas, phased arrays.

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Two low-cost phased arrays

Rao

Trunk

Patel

1997

IEEE Aerosp. Electron. Syst. Mag.

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In a phased array antenna, the phase shifters (or T/R modules in an active aperture phased array) with their beam-steering control circuitry along with the feed network account for the major hardware cost. This paper presents two antenna array configurations that use simpler feed, simpler phase-shifting and simpler beam-steering control circuitry for realizing low-cost phased arrays. Both are lens configurations. The first one uses a Radant lens, which provides a medium that is loaded with diodes and provides the needed phase shift by switching the diodes on and off. The other configuration employs a ferroelectric dielectric material whose dielectric constant can be varied with an applied DC bias voltage. It is shown that the ferroelectric lens may have further advantages of smaller thickness, simpler beam-steering controls and lower cost.

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Multifocal three-dimensional bootlace lenses

Rao

1982

IEEE Trans. Antennas Propagat.

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J. B. L. Rao

Voltage-controlled ferroelectric lens phased arrays

Voltage controlled ferroelectric lens phased arrays

Two low-cost phased arrays

Multifocal three-dimensional bootlace lenses

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