Low Sidelobe Wide Nulling Digital Beamforming for Large Planar Array Using Iterative FFT Techniques

Abstract: The combination of low peak sidelobe level (PSLL) with wide sector nulling digital beamforming (DBF) is achieved for large planar array antennas. This combination is carried out using the iterative Fourier transform (IFT) method. The method is based on the iterative Fourier technique to derive element excitations from the prescribed array factor using successive forward and backward Fourier transforms. A 1024-element rectangular uniformly spaced array is used as an example to demonstrate the performance of the… Show more

“…The desired antenna array pattern with a speci ed sidelobe level (SLL) and a rst null beamwidth (FNBW) can be achieved by controlling the three basic parameters: amplitude, phase, and spacing between radiating elements [1][2][3][4][5]. However, this requires a high dynamic range of parameters with the use of costly and complicated feed network of attenuators/ampli ers and phase shifters having high insertion loss.…”

Pulse Splitting Technique for Low Sidelobe Time-Modulated Antenna Array Synthesis with Harmonic Suppression

“…The desired antenna array pattern with a speci ed sidelobe level (SLL) and a rst null beamwidth (FNBW) can be achieved by controlling the three basic parameters: amplitude, phase, and spacing between radiating elements [1][2][3][4][5]. However, this requires a high dynamic range of parameters with the use of costly and complicated feed network of attenuators/ampli ers and phase shifters having high insertion loss.…”

Pulse Splitting Technique for Low Sidelobe Time-Modulated Antenna Array Synthesis with Harmonic Suppression

Pulse Splitting Technique for Low Sidelobe Time-Modulated Antenna Array Synthesis with Harmonic Suppression